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IBM Maximo for AviationVersion 7.6.4Quick Start GuideThis guide introduces IBM Maximo for Aviation Version 7.6.4, provides a link to a list of prerequisite software, gets you started with a typical installation, and provides a roadmap to other important information.National Language Version:To obtain the Quick Start Guide in other languages, print the language-specific PDF file from the installation media.Product overviewIBM ®Maximo ®for Aviation provides aviation organizations with features to schedule and manage aircraft maintenance to maintain regulatory compliance and minimize periods when an aircraft is grounded. The efficient maintenance, repair, and overhaul of aircraft increases flight availability and extends the life of airframes, engines, and other components of an aircraft.For complete information, including installation instructions, see IBM Knowledge Center (/support/knowledgecenter/SS5RRF_7.6.4/com.ibm.mavm.doc/welcome.html).2Step 2: Plan the installationYou install Maximo for Aviation on a Microsoft Windows administrative workstation. Ensure that IBM Maximo Asset Management version 7.6.0.6 is installed on the same administrative workstation where you plan to install Maximo for Aviation version 7.6.4, and in the same language as Maximo for Aviation version 7.6.4.You must have system administrator rights and privileges to install the product.For information about the hardware, software, and network requirements for your product, see the System Requirements section in the Overview and Planning page on the Maximo Asset Management wiki (https:///developerworks/community/wikis/home?lang=en#!/wiki/IBM%20Maximo%20Asset%20Management/page/Overview%20and%20planning)3Step 3: Install the productTo install Maximo for Aviation:1.Review the software requirements.2.Prepare to install.3.Install Maximo for Aviation.For Oracle WebLogic Server environments only: you must deploy the Enterprise Application Archive (EAR) files.For IBM WebSphere ®Application Server environments: The EAR files are installed when you install the process automation engine. If this task was deferred during the Maximo for Aviation installation, deploy the EAR files.Detailed installation instructions are in the IBM Maximo for Aviation, 7.6.4 Installation Guide in IBM Knowledge Center (/support/knowledgecenter/SS5RRF_7.6.4/com.ibm.mavm.doc/welcome.html).More informationAfter you install the product, use IBM Knowledge Center to learn more about the product.For more information, see the following resources:v Product support (https:///support/entry/portal/product/tivoli/ibm_maximo_for_aviation )v IBM User Communities (https:///social/aggregator/ibm)IBM®Maximo for Aviation Licensed Materials - Property of IBM. © Copyright IBM Corp. 2016. U.S. Government Users Restricted Rights - Use, duplication or disclosure restricted by GSA ADP Schedule Contract with IBM Corp.IBM, the IBM logo, and are trademarks or registered trademarks of International Business Machines Corp., registered in many jurisdictions worldwide. Other product and service names might be trademarks of IBM or other companies. A current list of IBM trademarks is available on the Web at “Copyright and trademark information” (/legal/copytrade.shtml).Printed in Ireland。

________________General DescriptionThe MAX4617/MAX4618/MAX4619 are high-speed, low-voltage, CMOS analog ICs configured as an 8-channel multiplexer (MAX4617), two 4-channel multiplexers (MAX4618), and three single-pole/double-throw (SPDT)switches (MAX4619).These CMOS devices can operate continuously with a +2V to +5.5V single supply. Each switch can handle Rail-to-Rail ®analog signals. The off-leakage current is only 1nA at T A = +25°C and 10nA at T A = +85°C.All digital inputs have 0.8V to 2.4V logic thresholds,ensuring TTL/CMOS-logic compatibility when using a single +5V supply.________________________ApplicationsBattery-Operated Equipment Audio/Video Signal RoutingLow-Voltage Data-Acquisition Systems Communications Circuits____________________________Featureso Fast Switching Times15ns t ON 10ns t OFFo Pin Compatible with Industry-Standard 74HC4051/74HC4052/74HC4053 and MAX4581/MAX4582/MAX4583o Guaranteed On-Resistance10Ωmax (+5V Supply)20Ωmax (+3V Supply)o Guaranteed 1Ω On-Resistance Match Between Channels (single +5V supply)o Guaranteed Low Off-Leakage Current:1nA at +25°Co Guaranteed Low On-Leakage Current:1nA at +25°Co +2V to +5.5V Single-Supply Operation o TTL/CMOS-Logic Compatible o Low Crosstalk: <-96dB o High Off-Isolation: <-93dBo Low Distortion: <0.017% (600Ω)MAX4617/MAX4618/MAX4619High-Speed, Low-Voltage, CMOS AnalogMultiplexers/Switches________________________________________________________________Maxim Integrated Products1____________________________________Pin Configurations/Functional Diagrams19-1502; Rev 0; 7/99_______________Ordering InformationOrdering Information continued at end of data sheet.Rail-to-Rail is a registered trademark of Nippon Motorola, Ltd.For free samples & the latest literature: , or phone 1-800-998-8800.For small orders, phone 1-800-835-8769.16 Plastic DIP16 Narrow SO 16 TSSOP PIN-PACKAGE TEMP. RANGE 0°C to +70°C 0°C to +70°C 0°C to +70°CMAX4617CPEMAX4617CSE MAX4617CUE PARTM A X 4617/M A X 4618/M A X 4619High-Speed, Low-Voltage, CMOS Analog Multiplexers/Switches 2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS—Single +5V Supply(V CC = +4.5V to +5.5V, V _H = 2.4V, V _L = 0.8V, T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.) (Note 2)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.Voltages Referenced to GNDV CC, A, B, C, or Enable...........................................-0.3V to +6V Voltage into Any Analog Terminal(Note 1).........................................................-0.3V to (V CC + 0.3V)Continuous Current into Any Terminal..............................±75mA Peak Current, X_, Y_, Z_(pulsed at 1ms, 10% duty cycle).................................±200mA Continuous Power Dissipation (T A = +70°C)TSSOP (derate 6.7mW/°C above +70°C)......................533mWNarrow SO (derate 8.70mW/°C above +70°C)..............696mW Plastic DIP (derate 10.53mW/°C above +70°C)..............842mW Operating Temperature RangesMAX461_C_ _ ......................................................0°C to +70°C MAX461_E_ _....................................................-40°C to +85°C Storage Temperature Range.............................-65°C to +150°C Lead Temperature (soldering, 10sec).............................+300°CNote 1:Voltages exceeding V CC or GND on any analog signal terminal are clamped by internal diodes. Limit forward-diode currentto maximum current rating.MAX4617/MAX4618/MAX4619High-Speed, Low-Voltage, CMOS AnalogMultiplexers/Switches_______________________________________________________________________________________3ELECTRICAL CHARACTERISTICS—Single +5V Supply (continued)(V CC = +4.5V to +5.5V, V _H = 2.4V, V _L = 0.8V, T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.) (Note 2)M A X 4617/M A X 4618/M A X 4619High-Speed, Low-Voltage, CMOS Analog Multiplexers/Switches 4_______________________________________________________________________________________ELECTRICAL CHARACTERISTICS—Single +3.3V Supply(V CC = +3V to +3.6V, V _H = 2.0V, V _L = 0.5V, T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.) (Note 2)MAX4617/MAX4618/MAX4619High-Speed, Low-Voltage, CMOS AnalogMultiplexers/Switches_______________________________________________________________________________________5Note 2:The algebraic convention is used in this data sheet; the most negative value is shown in the minimum column.Note 3:∆R ON = R ON(MAX)- R ON(MIN).Note 4:Flatness is defined as the difference between the maximum and minimum value of on-resistance as measured over the specifiedanalog signal ranges; i.e., V X_, V Y_, V Z_= 3V to 0 and 0 to -3V.Note 5:Leakage parameters are 100% tested at maximum-rated hot operating temperature, and guaranteed by correlation at T A = +25°C.Note 6:Guaranteed by design, not production tested.ELECTRICAL CHARACTERISTICS—Single +2.5V Supply(V CC = +2.5V, T A = T MIN to T MAX , unless otherwise noted. Typical values are at T A = +25°C.) (Note 2)M A X 4617/M A X 4618/M A X 4619High-Speed, Low-Voltage, CMOS Analog Multiplexers/Switches 6_______________________________________________________________________________________252015105002.53.0 3.54.0 4.50.5 1.0 1.5 2.05.0ON-RESISTANCE vs. V X , V Y , V ZV X , V Y , V Z (V)O N -R E S I S T A N C E (Ω)02.53.01.52.00.51.03.54.04.55.002.01.50.5 1.0 2.53.0 3.54.0 4.55.0ON-RESISTANCE vs.V X , V Y , V ZAND TEMPERATUREV X , V Y , V Z (V)R O N (Ω)10000.01-4010020406080-20OFF-LEAKAGE vs. TEMPERATURE1010.1100TEMPERATURE (°C)O F F -L E A K A G E (p A )0.1110100-40-2020406080100ON-LEAKAGE vs. TEMPERATUREM A X 4617 t o c 04TEMPERATURE (°C)O N -L E A K A G E (p A )042681416181210201.0 1.52.0 2.50.53.0 3.54.0 4.55.0CHARGE INJECTION vs. V X , V Y , V ZM A X 4617 t o c 05V X , V Y , V Z (V)C H A R G E I N J E C T I O N (p C )SUPPLY CURRENT vs. TEMPERATURE10,0001-40206040-201008010TEMPERATURE (°C)I C C (p A )10010000SUPPLY CURRENT vs.LOGIC VOLTAGE2.5V A , V B , V C , V ENABLE (V)I C C (m A )2.01.50.51.05.02.01.00.5 1.53.53.02.54.54.0Typical Operating Characteristics(V CC = +5V, GND = 0, T A = +25°C, unless otherwise noted.)MAX4617/MAX4618/MAX4619High-Speed, Low-Voltage, CMOS AnalogMultiplexers/Switches_______________________________________________________________________________________700.0050.010.0150.020.0258104621214161820TOTAL HARMONIC DISTORTIONvs. FREQUENCYFREQUENCY (kHz)()42861210142.0 3.0 3.52.5 4.0 4.5 5.0 5.5SWITCHING TIME vs. VOLTAGEM A X 4617 t o c 11V+ (V)S W I T C H I N G T I M E S (n s )1.01.41.21.61.82.02.53.04.03.54.55.0INPUT HIGH LOGIC THRESHOLDvs. SUPPLY VOLTAGEM A X 4617 t o c 08V CC (V)V A , V B , V C , V E N A B L E (V )10k100k1M10M100M500MFREQUENCY RESPONSEFREQUENCY (Hz)G A I N (d B )P H A S E (°)-100-70-80-90-60-50-40-30-20-100-180-72-108-144-3603672108144180Typical Operating Characteristics (continued)(V CC = +5V, GND = 0, T A = +25°C, unless otherwise noted.)M A X 4617/M A X 4618/M A X 4619High-Speed, Low-Voltage, CMOS Analog Multiplexers/Switches 8_________________________________________________________________________________________________Applications InformationPower-Supply ConsiderationsOverviewThe MAX4617/MAX4618/MAX4619 construction is typi-cal of most CMOS analog switches. They have two sup-ply pins: V CC and GND. V CC and GND are used to drive the internal CMOS switches and set the limits of the ana-log voltage on any switch. Reverse ESD-protection diodes are internally connected between each analog-signal pin and both V CC and GND. If any analog signal exceeds V CC or GND, one of these diodes conducts.During normal operation, these and other reverse-biased ESD diodes leak, forming the only current drawn from V CC or GND.Virtually all the analog leakage current comes from the ESD diodes. Although the ESD diodes on a given signal pin are identical and therefore fairly well balanced, they are reverse biased differently. Each is biased by either V CC or GND and the analog signal. This means their leakages will vary as the signal varies. The difference in the two diode leakages to the V CC and GND pins con-stitutes the analog-signal-path leakage current. All ana-log leakage current flows between each pin and one of the supply terminals, not to the other switch terminal.This is why both sides of a given switch can show leak-age currents of either the same or opposite polarity.V CC and GND power the internal logic and set the input logic limits. Logic inputs have ESD-protection diodes to ground.in both directions.Pin DescriptionMAX4617/MAX4618/MAX4619High-Speed, Low-Voltage, CMOS AnalogMultiplexers/Switches_______________________________________________________________________________________9The logic-level thresholds are TTL/CMOS compatible when V CC is +5V. As V CC rises, the threshold increas-es; as V CC falls, the threshold decreases. For example,when V CC = +3V the guaranteed minimum logic-high threshold decreases to 2.0VPower SupplyThese devices operate from a single supply between +2.5V and +5.5V. All of the bipolar precautions must be observed. At room temperature, they actually “work”with a single supply near or below +2V, although as supply voltage decreases, switch on-resistance becomes very high.Overvoltage ProtectionProper power-supply sequencing is recommended for all CMOS devices. Do not exceed the absolute maxi-mum ratings because stresses beyond the listed rat-ings can cause permanent damage to the devices.Always sequence V CC on first, followed by the logic inputs and analog signals. If power-supply sequencing is not possible, add two small signal diodes (D1, D2) in series with the supply pins for overvoltage protection (Figure 1).Adding diodes reduces the analog-signal range to one diode drop below V CC and one diode drop above GND, but does not affect the devices’ low switch resis-tance and low leakage characteristics. Device opera-tion is unchanged, and the difference between V CC and GND should not exceed 6V. These protection diodes are not recommended if signal levels must extend to ground.High-Frequency PerformanceIn 50Ωsystems, signal response is reasonably flat up to 50MHz (see Typical Operating Characteristics ).Above 20MHz, the on-response has several minor peaks that are highly layout dependent. The problem is not turning the switch on, but turning it off. The off-state switch acts like a capacitor and passes higher frequen-cies with less attenuation. At 10MHz, off-isolation is about -50dB in 50Ωsystems, becoming worse (approx-imately 20dB per decade) as frequency increases.Higher circuit impedances also degrade off-isolation.Adjacent channel attenuation is about 3dB above that of a bare IC socket and is entirely due to capacitive coupling.Pin NomenclatureThe MAX4617/MAX4618/MAX4619 are pin compatible with the industry-standard 74HC4051/74HC4052/74HC4053 and the MAX4581/MAX4582/MAX4583. In single-supply applications, they function identically and have identical logic diagrams, although these parts dif-fer electrically.The pin designations and logic diagrams in this data sheet conform to the original 1972 specifications pub-lished by RCA for the CD4051/CD4052/CD4053. These designations differ from the standard Maxim switch and mux designations found on other Maxim data sheets (including the MAX4051/MAX4052/MAX4053) and may cause confusion. Designers who feel more comfortable with Maxim’s standard designations are advised that the pin designations and logic diagrams on the MAX4051/MAX4052/MAX4053 data sheet may be freely applied to the MAX4617/MAX4618/MAX4619.Figure 1. Overvoltage Protection Using External Blocking DiodesM A X 4617/M A X 4618/M A X 4619High-Speed, Low-Voltage, CMOS Analog Multiplexers/Switches 10______________________________________________________________________________________X = Don’t care*C not present on MAX4618.Note:Input and output pins are identical and interchangeable. Either may be considered an input or output; signals pass equallywell in either direction.MAX4617/MAX4618/MAX4619High-Speed, Low-Voltage, CMOS AnalogMultiplexers/Switches______________________________________________________________________________________11Figure 2. Address Transition Times______________________________________________Test Circuits/Timing DiagramsM A X 4617/M A X 4618/M A X 4619High-Speed, Low-Voltage, CMOS Analog Multiplexers/Switches 12______________________________________________________________________________________Figure 3. Enable Switching Times_________________________________Test Circuits/Timing Diagrams (continued)MAX4617/MAX4618/MAX4619High-Speed, Low-Voltage, CMOS AnalogMultiplexers/Switches______________________________________________________________________________________13Figure 4. Break-Before-Make IntervalFigure 5. Charge Injection_________________________________Test Circuits/Timing Diagrams (continued)M A X 4617/M A X 4618/M A X 4619High-Speed, Low-Voltage, CMOS Analog Multiplexers/Switches14______________________________________________________________________________________Figure 6. Off-Isolation, On-Loss, and CrosstalkFigure 7. Capacitance _________________________________Test Circuits/Timing Diagrams (continued)MAX4617/MAX4618/MAX4619High-Speed, Low-Voltage, CMOS AnalogMultiplexers/Switches______________________________________________________________________________________15___________________Chip Information_Ordering Information (continued)TRANSISTOR COUNT: 244M A X 4617/M A X 4618/M A X 4619High-Speed, Low-Voltage, CMOS Analog Multiplexers/Switches 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.16____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600©1999 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products.________________________________________________________Package Information。

Valtek MaxFlo 4 Eccentric Rotary Plug Control ValveMaxFlo 4 Eccentric Rotary Plug Control Valve2The Flowserve Valtek MaxFlo 4 control valve is a high performance eccentric rotary plug valve designed for the process industry. It features a large capacity, standard hardened trim and superior shaft blow-out protection. This valve is available in sizes 1 through 12 inches, ASME Class 150, 300 and 600 as well as DIN PN 10, PN16, PN 25, PN40 and PN63.An optional ISA 75.08.01 or DIN EN 558 series 1 long-pattern body makes this valve an easy drop-in replacement for a globe control valve.The MaxFlo 4 is suitable for most applications; its control valve features include:• Highest Rated Cv • Precise Control • Reliable Shut-off• Most Current Safety Standards • Fugitive Emissions Elimination •Integral Noise Reduction PlatesHighest Rated CvThe unique design of the MaxFlo 4 shaft and plug provide as much as 70% more Cvcompared to the competition. This allows customers to get more flow when neededand sometimes allows for a smaller, more economical valve to be used.Precise ControlThe MaxFlo 4 polygon connection between the shaft and plug is a proven superiormethod for making demanding mechanical connections that are stronger, more preciseand have a substantially longer service life. This reduces backlash and the high strengthof the polygon connections makes them capable of withstanding greater shock loadsunder extreme torque reversal conditions.Reliable Shut-offThe MaxFlo 4 double-offset eccentric plug rotates into the seat at an angle that eliminatessliding over the seat surface. This design reduces seat wear, and thereby decreases main-tenance requirements and costs. At the same time, a tight ANSI Class VI shutoff is easilyobtainable using the soft seat design.Safety StandardThe shaft is designed to meet the safety requirements of industry standard ASME B16.34to ensure that the shaft is retained even if the actuator is removed when the valve is stillpressurized. This is standard on every MaxFlo 4 to provide our customers with confidenceand safety.3Separate bonnet ensures positive anti-blowout, accommodates multiple packing options, and offers flexibility in material selection for demandingapplications.Heavy-duty rigid metal seat,with hardfaced or soft-seat options, provides tighter shutoff, and easier maintenance. Available in full area and several reductions in every size to suit your process needs.Blow out proof shaft required by ASME B16.34 2004 Sec 6.5 ensures safety. Standard on every MaxFlo 4.An economical flangeless configuration of the MaxFlo 4 is also available. The standard flanged body is the same length. To replace existing globe valves we offer the flanged body with the same face to face length as a globe valve (Per ISA 75.08.01).4Open Flow Path gives as much as 70%more C v than competitive valves that have the shaft obstructing the flow. In many cases it is possible to use a smaller, more economical MaxFlo 4.Flanged end post allows for easy maintenance.Hard stainless steel plug requires no breakout torque and increases valve life as the plug lifts off the seat immediately when it begins rotating.Precision NC machined plug and shaft significantly reduces maintenance costs byallowing replacement of only the necessary parts.Polygon shaft/plug connection for precise robust control.Shimless seat offers simplified assembly and easy maintenance.5Eliminate Fugitive EmissionsSpecial Flowserve packing sets, such as SureGuard XT live loaded packing, are available to control fugitive emissions. Packing options include: PTFE V-Ring, Braided PTFE, Graphite, Sureguard XT, Garlock SVS, LATTYflon 3265 LM and LATTYgraf 6995 NG (meeting requirements for TA-Luft, ISO 15848-1 class B and A, and EPA standards).Integral Noise-Reduction Plate OptionDesigned to reduce noise levels by 5 to 10 dBA, our integral plate fits into the valve body. It can be easily maintained using the same tools required for the seat retainer. It is perfectly suitable with all gases in the shaft-downstream direction, and the plate does not change the length of the valve.Integrated Control Valve SolutionOperated by a diaphragm, piston, or rack-and-pinion actuator coupled with a Logix digital positioner, the MaxFlo 4 maintains high positioning accuracy, repeatability, controlled high speed and reliable response. With the advanced diagnostic solutions that can be seamlessly integrated into a host control and/or plant asset management system, along with state-of-the-art features and performance, the MaxFlo 4 is the most economical Eccentric Rotary Plug valve in the market.NR Diaphragm Rotary ActuatorThe Flowserve NR diaphragm rotary actuator is a rugged single-acting actuator designed to provide high performance, long life and reliability. The diaphragm actuator is very sensitive to small changes in air supply, which allows it toprecisely move the valve plug without over shoot.6Logix 3000MD+ Digital PositionerEasiest calibration and configuration of any positioner available. Single, push-button calibration and DIP switch configuration allow you to fully commission the positioner in a matter of minutes. Using ValveSight Software DTM brings the availability of 24/7 diagnostics.For more information see document number LGENIM0059 and LGENIM3404 at .Logix 500MD+ Series Digital PositionerTo minimize your total cost of ownership and maximize productivity, Flowserve developed the Logix MD+ digital positioner. The Logix MD+ digital positioner allows for fast, simple commis-sioning, extremely accurate and reliable control, and diagnostic features that provide powerfuland easy ways to determine when maintenance is required.ValveSight™ Diagnostic Software – Prevention deliveredValveSight is a diagnostic solution for control valves that can be seamlessly integrated into a host control and/or plant asset management system. The power of ValveSight is the intel-ligent diagnostic engine -- which detects an emerging condition in the valve, actuator, posi-tioner, and control signal -- that may indicate a performance, safety, or environmental problem. ValveSight advises which corrective actions totake to prevent a failure.VR Spring Cylinder Rotary ActuatorThe Flowserve VR spring cylinder rotary actuator combines high torque and pneu-matic stiffness with excellent throttling capabilities. These characteristics are designed into a lightweight, rugged and compact assembly, making the Flowserve spring cylinder rotary actuator an excel-lent choice for quarter-turn applications.SuperNova Rack & Pinion Rotary ActuatorThe Flowserve SuperNova rack & pinion rotary actuator is designed forreliability, versatility and safety. Rugged, yet compact construction combined with technical solutions make this product extremely reliable in the severest of operating conditionsLogix 420 Digital PositionerThe Logix 420 is the latest addition to the digital positioner family from Flowserve. When mounted to the MaxFlo 4 eccentric rotary plugcontrol valve, Logix 420 provides the user with a cost competitive solutionfor the general service, explosion proof market. For more information see document numberLGENIM0106 at www .Unparalleled Service: Day or Night, WorldwideFlowserve Quick Response Centers (QRCs) are equipped with thousands of parts, including OEM andFlowserve custom-built products. Each has the manpower andequipment to expedite time-sensitiverepairs of any size.7To find your local Flowserve representative:For more information about Flowserve Corporation, visit or callUSA 1 800 225 6989 or International +1 972 910 0774FCD VLENBR0064-01-AQ Printed in USA. November 2015. © 2015 Flowserve Corporation United States Flowserve1350 N. Mt. Springs Parkway Springville, UT 84663USAPhone: +1 801 489 8611Fax: +1 801 489 3719AustriaFlowserve Control Valves GmbH Kasernengasse 69500 Villach AustriaPhone: +43 (0)4242 41181 0Fax: +43 (0)4242 41181 50FranceFlowserve France S.A.S.BP 60 63307 Thiers Cedex FrancePhone: 33 4738 04266Fax: 33 4738 01424IndiaFlowserve India Controls Pvt. Ltd Plot # 4, 1A, E.P .I.P , Whitefield Bangalore Kamataka India 560 066Phone: +91 80 284 10 289Fax: +91 80 284 10 286SingaporeFlowserve Pte. Ltd.12 Tuas Avenue 20Republic of Singapore 638824SingaporePhone: +65 6879 8900Fax: +65 6862 4940Saudi ArabiaFlowserve Abahsain Flow Control Co., Ltd.Makkah Road, Phase 4Plot 10 & 12, 2nd Industrial City Damman, Kingdom of Saudi ArabiaPhone: +966 3 857 3150 ext. 243Fax: +966 3 857 4243ChinaFlowserve Fluid Motion and Control (Suzhou) Co., Ltd.No. 35, Baiyu RoadSuzhou Industrial Park, Suzhou Jiangsu Province, P .R. 215021ChinaPhone: 86 512 6288 8790Fax: 86 512 6288 8736。

MagnumPanel Systems UL1741 Interconnection System EquipmentThe MMP – M ini M agnum P anel is an inclusive, easy-to-install panel designed to work with one Magnum MS-AE, MS-PAE, MS, RD or other non-Magnum inverter/charger.FEATURES:Small footprint:⏹only 12.5” wide x 18” tall x 8” deep Money-saving design:⏹not only is the MMP less expensive, but it is pre-wired for fast installation, saving labor costs Easy access:⏹front-mounted breakers and remote (optional)PART NUMBERSThe MMP EnclosureThe MMP shown with inverter (sold separately) and optional remote and backplate.Choices:⏹can bewired for 120 V AC or 120/240 V AC output Inclusive:⏹works with non-Magnum inverter/chargers (stand-alone parts included)Listed: ⏹ ETL listed to UL1741 and CSA C22.2 107-01DC load breakers:⏹ fits either din rail or back-mount DC load breakers.INCLUDES:One DC breaker – 175A or 250A ⏹One AC bypass breaker – 30A⏹dual pole or 60A single pole One AC input breaker – 30A ⏹dual pole or 60A single pole500A/50mv DC shunt ⏹DC buss bars for battery⏹positive and negativeDin rail or back mount for⏹optional DC mini breakers – will hold up to eight breakersThe MPSL shown with a single inverter (sold separately).The MPSL shown with two inverters (sold separately), an MPX extension to accommodate a second inverter, an optional dual backplate, and an optional router.The MPSL – M agnum P anel, S ingle Enclosure, L ow Capacity – is designed to accommodate a maximum of two inverters.FEATURES:Expandable:⏹start with the enclosure and just one inverter and in the future expand to two inverters with ease, using the MPX.Easy installation:⏹all connections are front-mounted, including AC and DC breakers and the MPX.Labor saving:⏹ panel is pre-wired for fast installation, saving labor costs.DC load breakers:⏹ fits either din rail or back-mount DC load breakers.Convenient knockouts:⏹ knockouts on the side of the enclosure are compatible with most charge controllers.INCLUDES:One DC breaker – 250A ⏹One 60A AC bypass breaker ⏹500A/50mv DC shunt ⏹Inverter AC input protection ⏹MPX extension includes⏹AC/DC circuit protection and wiringPART NUMBERSThe MPSH shown with three inverters (sold separately), two MPX extensions to accommodate the additional inverters, two backplates, and an optional router.The MPSH – M agnum P anel, S ingle Enclosure, H igh Capacity – is designed to accommodate a maximum of three inverters.FEATURES:More power capacity:⏹the 125A bypass breakerand the 1000A DC shuntsafely handle the powerfrom larger systems.Expandable:⏹start withthe enclosure and just oneinverter and in the futureexpand to up to threeinverters with ease, usingthe MPX.Labor saving:⏹ panel is pre-wired for fast installation,saving labor costs.Easy installation:⏹all connections are front-mounted, including AC andDC breakers and the MPX.DC load breakers:⏹ fitseither din rail or back-mount DC load breakers.Convenient knockouts:⏹knockouts on the sideof the enclosure arecompatible withcharge controllers.INCLUDES:One DC breaker – 250A⏹One 125A AC bypass breaker⏹1000A/100mv DC shunt⏹Inverter AC input protection⏹MPX extension includes⏹AC/DC circuit protectionand wiringPART NUMBERSThe MPDH shown with four inverters (sold separately), two MPX extensions to accommodate the additional inverters, three backplates, and the Magnum router.The MPDH – M agnum P anel, D ual Enclosure, H igh Capacity – is designed to accommodate a maximum of four inverters with two enclosures – one for AC connections and one for DC connections. FEATURES:More power capacity:⏹the 125A bypass breakerand the 1000A DC shuntsafely handle the powerfrom larger systems.Expandable:⏹start withthe enclosures and justtwo inverters and in thefuture expand to up to fourinverters, using the MPX.Easy installation:⏹all connections are front-mounted, including AC andDC breakers and the MPX.Labor saving:⏹ panel is pre-wired for fast installation,saving labor costs.DC load breakers:⏹ fitseither din rail or back-mount DC load breakers.Convenient knockouts:⏹knockouts on the sideof the enclosures arecompatible withcharge controllers.Separate AC and DC⏹enclosures: for installerswho prefer separateenclosures, the MPDHprovides an easy solution.INCLUDES:Two DC breakers – 250A⏹One 125A AC bypass breaker⏹1000A/100mv DC shunt⏹Inverter AC input protection⏹MPX extension includes⏹AC/DC circuit protectionand wiringPART NUMBERSReading Magnum Panel Part NumbersAvailable Magnum Panel part numbers:MPSL-30D⏹MPSL-60S⏹MPSH-30D⏹MPDH-30D⏹Magnum Panel part numbers follow the same three-part pattern: MPSL-30D, which may be broken down into:MP SL-30D30D30 AAC Double-pole, input circuit breaker(s).x1 for single box or x2 for dual box60S60 AAC Single-pole, input circuit breakerSL Single box, low capacity – includes 60 AAC bypass, 500 ADCshunt and one 250 ADC breaker. Capability for 1-2 invertersSH Single box, high capacity – includes 125 AAC bypass, 1000 ADCshunt and one 250 ADC breaker. Capability for 2-3 invertersDH Dual box, high capacity – includes 125 AAC bypass, 1000 ADCshunt and two 250 ADC breakers. Capability for 2-4 invertersAvailable Magnum Panel Extensionpart numbers:MPX-30D⏹MPX-60S⏹Magnum Panel Extension part numbers follow the same two-part pattern: MPX-30D, which may be broken down into:MPX-30D30D Ships with one 30 AAC Double-pole, input circuit breaker,one 250 ADC breaker, and all AC and DC inverter wiring60S Ships with one 60 AAC Single-pole, input circuit breaker,one 250 ADC breaker, and all AC and DC inverter wiringMPX Magnum Panel Extension Box – 1 unit capacityMini Magnum Panelpart numbers:Mini Magnum Panel part numbers follow the same three-part MMP175-30D30D30 AAC Double-pole, input circuit breaker(s).x1 for single box or x2 for dual box60S60 AAC Single-pole, input circuit breaker175175 ADC breakerPhone: Fax:Web:。

Entry-level Arm-based 64-bit ComputersDual-core, 2-GB RAMCompact Dual-core, 2-GB RAM Built-in LTEValue-added Arm-based 64-bit ComputersQuad-core, 4-GB RAMQuad-core, 4-GB RAM5G/CAN/serial IsolationBuilt-in LTEMoxa Industrial LinuxMoxa's Debian-based industrial-grade stable Linux distribution for long-term projectsFeatures and Benefits5Debian-based distribution that can use all standard Debian packages5Developed as per IEC 62443-4-1 and compliant with IEC 62443-4-2 industrialcybersecurity standards (Moxa Industrial Linux 3 Secure)5Long-term support until 2027 for Moxa Industrial Linux 1 and 2031 for MoxaIndustrial Linux 35Wireless connection management utility with automatic network keep alive andfailover5Ready-to-use APIs and library to ease access to hardware and I/O interfaces5Crash-free robust file system5Over-the air (OTA) software updatesWireless-ready Arm-based 32-bit Computers Built-in cellular or Wi-Fi module, RF type approvals, and carrier approvalsBuilt-in LTE Cat.1Built-in LTECat.1 and Wi-FiBuilt-in LTECat.1 and Wi-FiBuilt-in LTECat.4 with Wi-Fi expansion1. Wireless module is built-in. Refer to the Wireless Connection and Expansion Modules section for details.2. Wireless module must be purchased separately. Refer to the Wireless Connection and Expansion Modules section for details.1 mPCIe for cellular/Wi-Fi1 mPCIe forcellular/Wi-Fi1 mPCIe forcellular/Wi-Fi1 mPCIe forcellular/Wi-Fi1 mPCIe for cellular 1mPCIe for Wi-Fi1 mPCIe forcellular/Wi-FiArm-based 32-bit Computers With Wireless Options Flexibility to add cellular or Wi-Fi capability when needed1. Wireless module must be purchased separately. Refer to the Wireless Connection and Expansion Modules section for details.1 LAN,1 serial2 LAN 2 LAN,2 serial2 LAN,2 serial2 LAN,4 serial2 LAN,4 serial2 LAN,1 serial2 LAN,2 serial3 LAN,8 serialStandard Arm-based 32-bit Computers Low power consumption and small form factorWireless Connectivity and Expansion Modules* Details of cellular and Wi-Fi support with a list of wireless accessory models* Antennas must be purchased separatelyLast updated: Aug. 15, 2023. All specifications are subject to change without notice.。

用于Peltier模块的集成温度控制器概论MAX1978 / MAX1979是用于Peltier热电冷却器（TEC）模块的最小, 最安全, 最精确完整的单芯片温度控制器。

片上功率FET和热控制环路电路可最大限度地减少外部元件, 同时保持高效率。

可选择的500kHz / 1MHz开关频率和独特的纹波消除方案可优化元件尺寸和效率, 同时降低噪声。

内部MOSFET的开关速度经过优化, 可降低噪声和EMI。

超低漂移斩波放大器可保持±0.001°C的温度稳定性。

直接控制输出电流而不是电压, 以消除电流浪涌。

独立的加热和冷却电流和电压限制提供最高水平的TEC保护。

MAX1978采用单电源供电, 通过在两个同步降压调节器的输出之间偏置TEC, 提供双极性±3A输出。

真正的双极性操作控制温度, 在低负载电流下没有“死区”或其他非线性。

当设定点非常接近自然操作点时, 控制系统不会捕获, 其中仅需要少量的加热或冷却。

模拟控制信号精确设置TEC 电流。

MAX1979提供高达6A的单极性输出。

提供斩波稳定的仪表放大器和高精度积分放大器, 以创建比例积分（PI）或比例积分微分（PID）控制器。

仪表放大器可以连接外部NTC或PTC热敏电阻, 热电偶或半导体温度传感器。

提供模拟输出以监控TEC温度和电流。

此外, 单独的过热和欠温输出表明当TEC温度超出范围时。

片上电压基准为热敏电阻桥提供偏置。

MAX1978 / MAX1979采用薄型48引脚薄型QFN-EP 封装, 工作在-40°C至+ 85°C温度范围。

采用外露金属焊盘的耐热增强型QFN-EP封装可最大限度地降低工作结温。

评估套件可用于加速设计。

应用光纤激光模块典型工作电路出现在数据手册的最后。

WDM, DWDM激光二极管温度控制光纤网络设备EDFA光放大器电信光纤接口ATE特征♦尺寸最小, 最安全, 最精确完整的单芯片控制器♦片上功率MOSFET-无外部FET♦电路占用面积<0.93in2♦回路高度<3mm♦温度稳定性为0.001°C♦集成精密积分器和斩波稳定运算放大器♦精确, 独立的加热和冷却电流限制♦通过直接控制TEC电流消除浪涌♦可调节差分TEC电压限制♦低纹波和低噪声设计♦TEC电流监视器♦温度监控器♦过温和欠温警报♦双极性±3A输出电流（MAX1978）♦单极性+ 6A输出电流（MAX1979）订购信息* EP =裸焊盘。

MXn RACK OVENPAGE MAIN COMPONENT PARTS - 3MAIN ELECTRICAL PARTS LIST - 4ELECTRICAL BOX LAYOUT - 5ROOF AREA PARTS LAYOUT - 6REPLACEMENT DAMPER ASSEMBLY - 7WATER INLET COMPONENTS – STANDARD TYPE - 8WATER INLET COMPONENTS – TESCO TYPE - 9MAIN FAN ASSEMBLY PARTS - 10RACK DRIVE ASSEMBLY PARTS -11RACK DRIVE SEAL REPLACEMENT -13ELEMENT BANK FITTING – MAIN COMPONENTS -14ELEMENT CARRIER ASSEMBLY PARTS -15DOOR – MAIN COMPONENTS -16DOOR LOCK COMPONENTS -19REPLACEMENT DOOR LOCK KIT -21MAIN COMPONENTS PARTSMAIN ELECTRICAL – PARTS LISTITEM PART NUMBER DESCRIPTION1 B873-30-015 OVERHEAT THERMOSTAT2 B872-22-074 HEATING ELEMENT MCB3 B872-22-074 HEATING ELEMENT MCB4 B872-22-074 HEATING ELEMENT MCB5 B801-08-032 HEATING ELEMENT CONTACTOR6 B872-07-004 MAIN FAN MOTOR MCB AUXILLARY CONTACTOR7 B872-22-054 MAIN FAN MOTOR MCB8 B872-22-052 TURNTABLE MOTOR MCB9 B872-22-003 INTERIOR LIGHT MCB10 B872-22-062 PUMP MOTOR MCB11 B872-22-061 CONTROL CIRCUIT MCB13A B801-37-001 INTERIOR LIGHT RELAY13B B801-36-001 INTERIOR LIGHT RELAY BASE14 B801-08-031 MAIN FAN MOTOR CONTACTOR15 B801-01-042 MAIN FAN MOTOR THERMAL OVERLOAD16 B801-08-031 TURNTABLE MOTOR CONTACTOR17 B801-01-041 TURNTABLE MOTOR THERMAL OVERLOAD18 B801-93-005 24V DC POWER SUPPLY19 B723-92-002 BUZZER OPTION24 B965-83-004 STEAM SOLENOID25 B998-83-005 DAMPER SOLENOID26 B859-74-024 MAIN FAN MOTOR27 B912-74-009 TURNTABLE MOTOR UNIT28A B801-11-013 TURNTABLE INDEX SWITCH BODY28B B801-45-003 TURNTABLE INDEX SWITCH HEAD28C B801-45-004 TURNTABLE INDEX SWITCH ACTUATOR29 B709-95-001 THERMOCOUPLE30A B801-11-013 DOOR SWITCH BODY30B B801-45-003 DOOR SWITCH HEAD30C B801-45-004 DOOR SWITCH ACTUATOR31A B721-67-011 INTERIOR LIGHT HOLDER31B B857-94-007 INTERIOR LIGHT BULB32A B801-12-022 INTERIOR LIGHT PUSH BUTTON32B B801-14-005 INTERIOR LIGHT PUSHBUTTON CONTACT BLOCK 32C B801-09-011 INTERIOR LIGHT PUSHBUTTON ENCLOSURE32D B801-15-024 INTERIOR LIGHT PUSHBUTTON LEGEND34 158-25-80000 PCB ASSEMBLY35 B979-04-001 HEATING ELEMENT36A B872-22-121 MOULDED CASE CIRCUIT BREAKER36B B872-02-004 UNDERVOLTAGE RELEASE COIL36C B872-19-001 EXTENSION SHAFT AND HANDLE37A B801-37-001 HEATER CONTACTOR RELAY37B B801-36-001 HEATER CONTACTOR RELAY BASE38 B705-25-009 USB CABLE39A B801-37-001 PUMP RELAY (IF PUMP FITTED)39B B801-36-001 PUMP RELAY BASE (IF PUMP FITTED)40 B842-48-010 SUPPRESSOR UNIT (IF PUMP FITTED)41 A900-28-005 WATER PUMP (IF FITTED)42 B842-92-005 SPEAKERELECTRICAL BOX PARTS LAYOUTROOF AREA PARTS LAYOUT2628RACK DRIVE ASSEMBLYDETAILS ON PAGE 11TURNTABLE INDEXFAN MOTORREPLACEMENT DAMPER ASSEMBLYTHE OLD ASSEMBLY WITH SOLENOIDB998-83-005 IS NO LONGER AVAILABLETHIS ASSEMBLY MUST BE SUPPLIED WITHDRAWING 160-38-03000 AS A REPLACEMENTFOR THE OLD DESIGN PARTS.WHEN SUPPLIED AS A SPARE PART, INCLUDE4off FIBRE WASHERS A900-05-190SEE KIT M164-KSE006ITEM PART NUMBER DESCRIPTION QTY160-38-03100 BASE BRACKET 1160-38-03200 SOLENOID BRACKET 1160-38-03300 DAMPER FLAP 1B749-83-004 SOLENOID 1A900-01-197 PIN 1WATER INLET COMPONENTS - STANDARDA900-28-005 GODWIN PUMPRef.G50B0.5HP 240V., 50HZ, 1PHASE, 2850RPM, 2.4AMPSWATER INLET COMPONENTS –TESCO (WITH PUMP)SEE PREVIOUS PAGEFOR DETAILSITEM PART NUMBER DESCRIPTION QTY1 164-01-02400 TUBE 22 A900-05-254 M16 PLAIN WASHER 13 A900-28-005 GODWIN G50B WATER PUMP 14 A900-34-021 15MM COMP. X ¼” BSP MALE COUPLING 15 A900-34-056 3/8” X 3/8” BSPT ST/STEEL NIPPLE 16 A900-34-057 3/8” BSP FEMALE ELBOW 17 A900-34-087 CONNECTING HOSE (1.5Mtr LONG) 18 A900-34-127 Y STRAINER 3/8” BSP 19 A900-34-165 FLOW VALVE 110 A900-34-177 15MM COMP. TO 3/8” MALE 111 A900-34-191 ¼” BSPT MALE TO 3/8” BSPT MALE REDUCER 112 A900-34-203 REDUCING NIPPLE BSPT 1” X ¾” 213 A900-34-218 ¾” X 3/8” REDUCER 114 A900-34-325 CENTRE STRAIGHT COMP. FEMALE IRON 2SOCKET CONNECTOR. 15MM COMP X ¾” FEMALE BRASS15 A900-34-392 WATER PRESSURE REGULATOR 116 B965-83-004 SOLENOID VALVE 1MAIN FAN ASSEMBLY PARTS2456798ITEM PART NUMBER DESCRIPTION QTY1 B859-74-024 MOTOR 12 160-35-00100 MOTOR SLIP PLATE ASSEMBLY 13 160-35-00500 FAN SUPPORT BRAKET 14 160-14-02400 COOLING FAN 15 160-14-10000 DRIVING FLANGE 16 160-14-01700 FAN SHAFT LOWER 17 160-35-01000 LOWER FAN ACCESS COVER 18 160-14-10100 RETAINING WASHER 19 A900-27-049 MAIN FAN 110 160-35-01500 FAN GUARD – SIDE 211 160-35-01600 FAN GUARD – FRONT 112 160-35-01700 FAN GUARD – REAR 1RACK DRIVE ASSEMBLY PARTSITEM PART NUMBER DESCRIPTION QTY1 B912-74-009 GEARMOTOR UNIT (VARVEL MRA70) 22 A900-05-143 M10 PLAIN WASHER 43 A900-05-142 M10 SPRING WASHER 54 A900-03-387 M12 X 45LG HEX HD SETSCREW 45 162-02-04100 DRIVE SHAFT ASSY 16 A900-03-383 M8 X 25LG HEX. HD. SETSCREW 87 A900-05-144 M8 PLAIN WASHER 168 A900-05-141 M8 SPRING WASHER 169 A900-03-439 M8 X 50LG HEX. HD. SETSCREW 810 160-36-01000 TURNTABLE DRIVE (LOWER) 111 A900-03-438 M10 X 45LG HEX. HD. SETSCREW 412 160-15-00600 TOP PLATE 113 160-15-00700 INSULATION PACKING PIECE 414 160-36-00100 BEARING SUPPORT PLATE ASSY 115 162-02-04400 DRIVE SPIDER 116 160-36-00300 TURNTABLE BEARING 117 160-15-00800 TURNTABLE DRIVE (UPPER) 118 160-15-01400 INSULATION DISC 1CONT’DRACK DRIVE ASSEMBLY PARTS Cont’dTO RENEW THE RACK DRIVE SEALThis seal is situated inside the oven above the ring plate surrounding the Rack hanger shaft.1 Release the six dome nuts (A) securing the rack hanger to its shaft andremove the hanger (B). Release the screws securing the ring plate andremove the plate (C).2 Pick out the rubber ring seal and coiled rope seal from within the cavity andcarefully coil in the new seal, ensuring that it is not distorted. Replace therubber ring seal.3 Refit the ring plate and the rack hanger.REPLACEMENT PARTS REQUIRED:ROPE SEAL ……………….. PT No. A900-32-016RUBBER SEAL…………….. PT No. A900-12-060ELEMENT BANK FITTING - MAIN COMPONENTSITEM PART NUMBER DESCRIPTION QTY1 164-31-01300 ELEMENT CARRIER 12 164-07-00800 INSULATION COVER 13164-07-01200 INSULATION COVER 14 164-07-05000 CABLE GUIDE PLATE 15 164-25-00200 MAIN ELECTRIC BOX 16 A900-05-074 FIBRE WASHER 47 164-07-01100 FRONT INSULATION BOARD 18 164-07-01000 REAR INSULATION BOARD 19 164-31-02100 HANDLE 2ELEMENT CARRIER ASSEMBLY PARTSITEM PART NUMBER DESCRIPTION QTY1 164-31-01300 ELEMENT CARRIER WELDMENT 22 160-31-02600 BUSBAR 13 160-31-02800 BUSBAR 14 160-31-02700 BUSBAR 15 160-31-02400 BUSBAR 16 160-31-02500 BUSBAR 17 164-04-07400 BUSBAR 18 160-31-02900 INSULATION BOARD 19 B979-04-001 ELEMENT C/W FASTENERS 1510 A900-03-533 M8 X 35LG HEX HD SCREW 411 A900-04-081 M8 FULL NUT 1012 A900-05-164 M8 SHAKEPROOF WASHER 513 A900-05-012 5/16” WASHER1014 A900-03-361 M6 X 20LG HEX HD BOLT 215 A900-04-080 M6 FULL NUT 2 16A900-05-140 M6 WASHER 2 17A900-05-163 M6 SHAKPROOF WASHER 2 18164-31-02100 DETACHABLE HANDLE 2DOOR – COMPONENTS91078621 354620421 123213 263 ”SECTION “B”-“B”SECTION “A”-DOOR – LOCK COMPONENTSLEVERHANDLE CONNECTING RODTENSION PIN KEEPER PLATESLIDE PIN6 20SLIDE PIN DENOTES FIXING. SEE PARTS LIST FOR DESCRIPTION”DOOR –LOCK COMPONENTS Cont’dITEM PART NUMBER DESCRIPTION QTY1 160-32-02000 HANDLE 12 *160-48-01400 LEVER 13 160-48-01600 CONNECTING ROD 14 160-48-01700 KEEPER PLATE 15 160-48-01800 PEDAL 16 160-48-01900 SLIDE PIN 27 160-48-02000 EXIT LABEL 18 160-48-02100 BALANCE WEIGHT 19 *160-48-10900 HANDLE LINK 1 10*160-48-11000 LOCK HOUSING BASE 1 11*160-48-10000 LOCK HOUSING COVER 112 A900-27-072 BOLT AND GUIDE 213 A900-03-714 M6 X 16LG CSK/SKT HD ST ST SCREW 614 A900-03-374 M8 X 12LG HEX HD ST ST SCREW 115 A900-05-141 M8 SPRING WASHER 116A900-03-532 M8 X 20LG HEX HD SCREW 2 17A900-05-164 M8 LOCK WASHER 2 18A900-03-372 M4 X 12LG HEX HD SCREW 419 A900-05-162 M4 LOCK WASHER 420 A900-05-143 M10 PLAIN WASHER 421 A900-01-120 3MM DIA. TENSION PIN X 15MMLG 322 A900-03-360 M6 X 12LG HEX HD SCREW 2223 SUPPLIED WITH HANDLE M8 X 40LG CSK/HD/PLATED SCREW 124 A900-05-163 M6 SHAKEPROOF WASHER 20 25*A900-27-121 LINK 226 A900-02-897 M6 X 12LG CSK/SKT HD ST ST SCREW 8*See next page for views of replacement lock kit containing these items.MX OVEN - REPLACEMENT DOOR LOCK KITLH DOOR LOCK KIT M160-KSX005RH DOOR LOCK KIT M160-KSX004ASSEMBLED10160-48-11001= LH160-48-10900= RHNOTEThis can also be used to replace the older Sampson aluminium lock housing foundon very early mx ovens.21FG164 MX RACK OVEN SPARES REV.A16 09/06/16。

General DescriptionThe MAX6412–MAX6420 low-power microprocessor supervisor circuits monitor system voltages from 1.6V to 5V. These devices are designed to assert a reset signal whenever the V CC supply voltage or RESET IN falls below its reset threshold or the manual reset input is asserted.The reset output remains asserted for the reset timeout period after V CC and RESET IN rise above the reset threshold and the manual reset input is deasserted. The reset timeout is externally set by a capacitor to provide more flexibility.The MAX6412/MAX6413/MAX6414 feature fixed thresholds from 1.575V to 5V in approximately 100mV increments and a manual reset input. The MAX6415/MAX6416/MAX6417are offered with an adjustable reset input that can monitor voltages down to 1.26V and the MAX6418/MAX6419/MAX6420 are offered with one fixed input and one adjustable input to monitor dual-voltage systems.The MAX6412/MAX6415/MAX6418 have an active-low,push-pull reset output. The MAX6413/MAX6416/MAX6419 have an active-high, push-pull reset output and the MAX6414/MAX6417/MAX6420 have an active-low, open-drain reset output. All of these devices are offered in a SOT23-5 package and are fully specified from -40°C to +125°C.ApplicationsAutomotive Medical Equipment Intelligent Instruments Portable EquipmentBattery-Powered Computers/Controllers Embedded Controllers Critical µP Monitoring Set-Top Boxes ComputersFeatures♦Monitor System Voltages from 1.6V to 5V ♦Capacitor-Adjustable Reset Timeout Period ♦Manual Reset Input (MAX6412/MAX6413/MAX6414)♦Adjustable Reset Input Option (MAX6415–MAX6420)♦Dual-Voltage Monitoring(MAX6418/MAX6419/MAX6420)♦Low Quiescent Current (1.7µA, typ)♦3 RESET Output OptionsPush-Pull RESET Push-Pull RESET Open-Drain RESET♦Guaranteed Reset Valid to V CC = 1V ♦Power-Supply Transient Immunity ♦Small SOT23-5 PackagesMAX6412–MAX6420Low-Power, Single/Dual-Voltage µP Reset Circuits with Capacitor-Adjustable Reset Timeout Delay________________________________________________________________Maxim Integrated Products1Ordering InformationPin Configuration19-2336; Rev 2; 12/05For pricing, delivery, and ordering information,please contact Maxim/Dallas Direct!at 1-888-629-4642, or visit Maxim’s website at .Typical Operating Circuit appears at end of data sheet.Selector Guide appears at end of data sheet.Note: The MAX6412/MAX6413/MAX6414 and MAX6418/MAX6419/MAX6420 are available with factory-set V CC reset thresholds from 1.575V to 5.0V in approximately 0.1V incre-ments. Insert the desired nominal reset threshold suffix (from Table 1) into the blanks following the letters UK. There are 33standard versions with a required order increment of 2500pieces. Sample stock is generally held on standard versions only (see Standard Versions Table). Required order increment is 10,000 pieces for nonstandard versions. Contact factory for availability. All devices are available in tape-and-reel only. Devices are available in both leaded and lead-free packaging.Specify lead-free by replacing “-T” with “+T” when ordering.M A X 6412–M A X 6420with Capacitor-Adjustable Reset Timeout Delay2_______________________________________________________________________________________ABSOLUTE MAXIMUM RATINGSELECTRICAL CHARACTERISTICS(V CC = 1V to 5.5V, T A = T MIN to T MAX , unless otherwise specified. Typical values are at V CC = 5V and T A = +25°C.) (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.All Voltages Referenced to GNDV CC ........................................................................-0.3V to +6.0V SRT, MR , RESET IN....................................-0.3V to (V CC + 0.3V)RESET, RESET (Push-Pull).........................-0.3V to (V CC + 0.3V)RESET (Open-Drain).............................................-0.3V to +6.0V Input Current (All Pins).....................................................±20mA Output Current (RESET , RESET)......................................±20mAContinuous Power Dissipation (T A = +70°C)5-Pin 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 +150°C Lead Temperature (soldering, 10s).................................+300°CMAX6412–MAX6420with Capacitor-Adjustable Reset Timeout Delay_______________________________________________________________________________________3ELECTRICAL CHARACTERISTICS (continued)(V CC = 1V to 5.5V, T A = T MIN to T MAX , unless otherwise specified. Typical values are at V CC = 5V and T A = +25°C.) (Note 1)Typical Operating Characteristics(V CC = 5V, C SRT = 1500pF, T A = +25°C, unless otherwise noted.)432100312456SUPPLY CURRENT vs.SUPPLY VOLTAGESUPPLY VOLTAGE (V)S U P P L Y C U R R E N T (µA )01.00.52.01.53.02.53.5-5025-255075100125SUPPLY CURRENT vs.TEMPERATURETEMPERATURE (°C)S U P P L Y C U R R E N T (µA )0.1110010100010,0000.0010.10.011101001000RESET TIMEOUT PERIOD vs. C SRTM A X 6412-20 t o c 03C SRT (nF)R E S E T T I M E O U T P E R I O D (m s )M A X 6412–M A X 6420with Capacitor-Adjustable Reset Timeout Delay4_______________________________________________________________________________________4.054.104.204.154.254.30-50-25255075100125RESET TIMEOUT PERIOD vs. TEMPERATURETEMPERATURE (°C)R E S E T T I M E O U T P E R I O D (m s )RESET TIMEOUT PERIOD vs. TEMPERATURE200250350300500550450400600R E S E T T I M E O U T P E R I O D (µs )-5025-255075100125TEMPERATURE (°C)1.2501.2601.2551.2701.2651.2751.280-502550-2575100125RESET IN THRESHOLD VOLTAGEvs. TEMPERATUREM A X 6412-20 t o c 06TEMPERATURE (°C)R E S E T I N T H R E S H O L D V O L T A G E (V)05025100751501251754002006008001000MAXIMUM TRANSIENT DURATION vs. RESET THRESHOLD OVERDRIVERESET THRESHOLD OVERDRIVE (mV)T R A N S I E N T D U R A T I O N (µs )Typical Operating Characteristics (continued)(V CC = 5V, C SRT = 1500pF, T A = +25°C, unless otherwise noted.)Detailed DescriptionThe MAX6412–MAX6420 low-power microprocessor (µP) supervisory circuits provide maximum adjustability for supply-voltage monitoring and reset functionality. In addition, the MAX6412–MAX6420 reset timeout period is adjustable using an external capacitor.The MAX6412/MAX6413/MAX6414 have factory-trimmed reset threshold voltages in approximately 100mV increments from 1.575V to 5.0V with a manual reset input. The MAX6415/MAX6416/MAX6417 contain a reset threshold that can be adjusted to any voltage above 1.26V using external resistors. The MAX6418/MAX6419/MAX6420 offer both a factory-trimmed reset threshold and an adjustable reset threshold input for dual-voltage monitoring.A reset signal is asserted when V CC and/or RESET IN falls below the preset values or when MR is asserted.The reset remains asserted for an externally pro-grammed interval after V CC and/or RESET IN has risen above the reset threshold or MR is deasserted.Reset OutputThe reset output is typically connected to the reset input of a µP. A µP’s reset input starts or restarts the µPin a known state. The MAX6412–MAX6420 µP supervi-sory circuits provide the reset logic to prevent code-execution errors during power-up, power-down, and brownout conditions (see Typical Operating Circuit ). F or the MAX6413, MAX6416, and MAX6419, RESET changes from low to high whenever V CC or RESET IN drops below the reset threshold voltages. Once RESET IN and V CC exceed their respective reset threshold volt-age(s), RESET remains high for the reset timeout period,then goes low.On power-up, once V CC reaches 1V, RESET is guaran-teed to be a logic high. For applications requiring valid reset logic when V CC is less than 1V, see the section Ensuring a Valid RESET/RESET Output Down to V CC = 0.The active-low RESET output of the remaining supervi-sors is the inverse of the MAX6413, MAX6416, and MAX6419 active-high RESET output and is guaranteed valid for V CC ≥1V.Reset ThresholdThe MAX6415–MAX6420 monitor the voltage on RESET IN with an external resistor voltage-divider (F igure 1).MAX6412–MAX6420with Capacitor-Adjustable Reset Timeout Delay_______________________________________________________________________________________5Pin DescriptionM A X 6412–M A X 6420Use the following formula to calculate the externally monitored voltage (V MON_TH ):V MON_TH = V RST ✕(R1 + R2)/R2where V MON_TH is the desired reset threshold voltage and V RST is the reset input threshold (1.26V). Resistors R1 and R2 can have very high values to minimize cur-rent consumption due to low leakage currents. Set R2to some conveniently high value (1M Ω, for example)and calculate R1 based on the desired monitored volt-age, using the following formula:R1 = R2 x (V MON_TH /V RST - 1) (Ω)Manual Reset Input(MAX6412/MAX6413/MAX6414)Many µP based products require manual reset capabil-ity, allowing the operator, a technician, or external logic circuitry to initiate a reset. A logic low on MR asserts reset. Reset remains asserted while MR is low and for the reset timeout period after MR returns high.The MR has an internal 20k Ωpullup resistor so it can be left open if not used. Connect a normally open momentary switch from MR to ground to create a man-ual reset function (external debounce circuitry is not required for long reset timeout periods).A manual reset option can easily be implemented with the MAX6415–MAX6420 by connecting a normally open momentary switch in parallel with R2 (Figure 2). When the switch is closed, the voltage on RESET IN goes to zero,initiating a reset. Similar to the MAX6412/MAX6413/MAX6414 manual reset, reset remains asserted while the switch is closed and for the reset timeout period after the switch is opened.Monitoring Voltages Other than V CC(MAX6415/MAX6416/MAX6417)The MAX6415/MAX6416/MAX6417 contain an adjustable reset threshold input. These devices can be used to monitor voltages other than V CC . Calculate V MON_TH as shown in the Reset Threshold section. (See Figure 3.)with Capacitor-Adjustable Reset Timeout Delay6_______________________________________________________________________________________Figure 1. Calculating the Monitored Threshold Voltage (V MON_TH )MAX6415–MAX6420Figure 3. Monitoring External VoltagesDual-Voltage Monitoring(MAX6418/MAX6419/MAX6420) The MAX6418/MAX6419/MAX6420 contain both facto-ry-trimmed threshold voltages and an adjustable reset threshold input, allowing the monitoring of two voltages, V CC and V MON_TH(see F igure 4). Reset is asserted when either of the voltages falls below its respective threshold voltage.Application InformationSelecting a Reset Capacitor The reset timeout period is adjustable to accommodate a variety of µP applications. Adjust the reset timeout period (t RP) by connecting a capacitor (C SRT) between SRT and ground. Calculate the reset timeout capacitor as follows:C SRT= (t RP- 275µs) / (2.73 ✕106)where t RP is in seconds and C SRT is in Farads The reset delay time is set by a current/capacitor-con-trolled ramp compared to an internal 0.65V reference.An internal 240nA ramp current source charges the external capacitor. The charge to the capacitor is cleared when a reset condition is detected. Once thereset condition is removed, the voltage on the capacitor ramps according to the formula: dV/dt = I/C. The C SRT capacitor must ramp to 0.65V to deassert the reset.C SRT must be a low-leakage (<10nA) type capacitor, ceramic is recommended.Operating as a Voltage DetectorThe MAX6412–MAX6420 can be operated in a voltage detector mode by floating the SRT pin. The reset delaytimes for V CC rising above or falling below the thresholdare not significantly different. The reset output is deasserted smoothly without false pulses.MAX6412–MAX6420with Capacitor-Adjustable Reset Timeout Delay _______________________________________________________________________________________7M A X 6412–M A X 6420Interfacing to Other Voltages for LogicCompatibilityThe open-drain outputs of the MAX6414/MAX6417/MAX6420 can be used to interface to µPs with other logic levels. As shown in Figure 5, the open-drain out-put can be connected to voltages from 0 to 5.5V. This allows for easy logic compatibility to various micro-processors.Negative-Going V CC TransientsIn addition to issuing a reset to the µP during power-up,power-down, and brownout conditions, these supervisors are relatively immune to short-duration negative-going transients (glitches). The Maximum Transient Duration vs.Reset Threshold Overdrive graph in the Typical Operating Characteristics shows this relationship.The area below the curve of the graph is the region in which these devices typically do not generate a reset pulse. This graph was generated using a negative-going pulse applied to V CC , starting above the actual reset threshold (V TH ) and ending below it by the magni-tude indicated (reset-threshold overdrive). As the mag-nitude of the transient decreases (farther below the reset threshold), the maximum allowable pulse width decreases. Typically, a V CC transient that goes 100mV below the reset threshold and lasts 50µs or less will not cause a reset pulse to be issued.Ensuring a Valid RESET or RESETDown to V CC = 0When V CC falls below 1V, RESET /RESET current sink-ing (sourcing) capabilities decline drastically. In the case of the MAX6412, MAX6415, and MAX6418, high-impedance CMOS-logic inputs connected to RESET can drift to undetermined voltages. This presents no problems in most applications, since most µPs and other circuitry do not operate with V CC below 1V.In those applications where RESET must be valid down to 0, adding a pulldown resistor between RESET and ground sinks any stray leakage currents, holding RESET low (Figure 6). The value of the pulldown resis-tor is not critical; 100k Ωis large enough not to load RESET and small enough to pull RESET to ground. For applications using the MAX6413, MAX6416, and MAX6419, a 100k Ωpullup resistor between RESET and V CC will hold RESET high when V CC falls below 1V (Figure 7). Open-drain RESET versions are not recom-mended for applications requiring valid logic for V CC down to 0.with Capacitor-Adjustable Reset Timeout Delay8_______________________________________________________________________________________Figure 5. MAX6414/MAX6417/MAX6420 Open-Drain RESETOutput Allows use with Multiple SuppliesFigure 6. Ensuring RESET Valid to V CC= 0Figure 7. Ensuring RESET Valid to V CC = 0Layout ConsiderationSRT is a precise current source. When developing the layout for the application, be careful to minimize board capacitance and leakage currents around this pin.Traces connected to SRT should be kept as short as possible. Traces carrying high-speed digital signals and traces with large voltage potentials should be rout-ed as far from SRT as possible. Leakage current and stray capacitance (e.g., a scope probe) at this pin could cause errors in the reset timeout period. When evaluating these parts, use clean prototype boards to ensure accurate reset periods.RESET IN is a high-impedance input, which is typically driven by a high-impedance resistor-divider network (e.g., 1M Ωto 10M Ω). Minimize coupling to transient sig-nals by keeping the connections to this input short. Any DC leakage current at RESET IN (e.g., a scope probe)causes errors in the programmed reset threshold.Chip InformationTRANSISTOR COUNT: 325PROCESS: BiCMOSMAX6412–MAX6420with Capacitor-Adjustable Reset Timeout Delay_______________________________________________________________________________________9Table 1. Reset Voltages Suffix TableM A X 6412–M A X 6420with Capacitor-Adjustable Reset Timeout Delay10______________________________________________________________________________________Contact factory for availability of nonstandard versions.MAX6412–MAX6420with Capacitor-Adjustable Reset Timeout Delay______________________________________________________________________________________11Typical Operating CircuitM A X 6412–M A X 6420with Capacitor-Adjustable Reset Timeout DelayMaxim 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.12____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600©2005 Maxim Integrated ProductsPrinted USAis a registered trademark of Maxim Integrated Products, Inc.S O T -23 5L .E PSPackage 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 .)。

—OPERATING INSTR UCTIONControl panels CP600 2nd generation CP6407, CP6410, CP6415Contents1Introduction (3)2Safety guide (4)2.1Safety guide (4)2.2Safety notices (4)2.3Markups (5)3Product overview (6)4Standards and approvals (7)4.1Product identification (7)5Technical specifications (9)6Technical data (11)6.1Dimensions (12)6.2Installation environment (13)6.3Safety instruction (14)6.4Installation procedure (14)7Connections (15)7.1CP600 2nd generation (15)7.2Serial port (16)7.3Ethernet port (16)8Power supply, grounding and shielding (17)9Battery (19)9.1Dispose of batteries (19)10Special instruction for use (20)11Cleaning faceplates (20)12Getting started (20)13System settings (21)14Unpacking and packing instructions (23)2 3ADR010470, 3, en_USCONTROL PANELS CP600 2ND GENERAT IONCP600 2nd generation, 3, en_US 31 IntroductionThe operational guidelines described below are information on device technical data, installation, transportation, storage, assembly, use and maintenance. The Manual refers to the following models: PictureType DescriptionCP6407Operator interface with 7” color widescreen display and resistive touchscreenCP6410Operator interface with 10”4 color display and resistive touchscreeCP6415Operator interface with 15” color display and resistive touchscreen2Safety guide2.1Safety guideThe manual contains safety standards that must be respected for the personal safetyand to avoid damage.Indications of attention are divided into three levels of severity.2.2Safety notices4 3ADR010470, 3, en_USCONTROL PANELS CP600 2ND GENERAT ION2.3MarkupsEnumeration.Precondition for an operation instruction or a description.Operation instruction with one step.1. Operation instruction with several steps.Result of an operation.CP600 2nd generation, 3, en_US 53Product overviewCP600 2nd generation HMI products combine state-of-the-art features and great perfor-mance in a compact and robust design.They have been designed to offer competitive price/performance ratio for challenging indus-trial applications where robust devices are a requirement.These products feature a full die-cast aluminum housing. Compatibility with CP600 seriescut-out offers an easy upgrade path for the old series.CP600 2nd generation products have been designed to run PB610 software with outstandingcommunication and graphical options.•Efficient and secure Linux operating system•Gateway function with Server and Client OPC UA•aFull PB610 vector graphic support•Efficient unified programming strategy for web HMI applications6 3ADR010470, 3, en_USCONTROL PANELS CP600 2ND GENERAT ION4Standards and approvalsThe products have been designed for use in an industrial environment in compliance with the2014/30/EU EMC Directive.The products have been designed in compliance with:EN 61000-6-4EN 61000-6-2 EN 61000-4-2EN 61000-4-3EN 61000-4-4EN 61000-4-5EN 61000-4-6EN 61000-4-8EN 61000-4-29EN60945The installation of these devices into the residential, commercial and light-industrial environ-ments is allowed only in the case that special in measures are taken in order to ensure con-formity to EN 61000-6-3.The products are in compliance with the Restrictions on Certain Hazardous Substances(RoHS) Directive 2011/65/EUIn compliance with the above regulations the products are CE marked.4.1Product identificationThe product may be identified through a plate attached to the rear cover. You will have toknow the type of unit you are using for correct usage of the information contained in theguide.An example of this plate is shown in the figure below:Note: the CP6407 label is used as an example for CP600 2nd generation Series.CP600 2nd generation, 3, en_US 783ADR010470, 3, en_USInformation on type plate (example) Description Product model name CP6407Product part number 1SAP540710R0001Serial number S.N.: AAxxxxxxxxxxxxxxxxAA Product version ID V.: xxxxxxxxxxxxxxx Manufacturer addressABB AGEppelheimer Straße 82, 69123 HeidelbergGermanyCONTROL PANELS CP600 2ND GENERAT IONCP600 2nd generation, 3, en_US 95 Technical specificationsTouchscreen technology ResistiveBack-up battery3 V 50 mAh Lithium, rechargeable, not user-replaceable, model VL2330.Fuse AutomaticSerial port RS-232, RS-485, RS-422 software configurable Flash 4 GB RAM512 MBHardware clock Clock/Calendar with back-up battery Accuracy RTC (at 25°C) < 100 ppmEnvironmental conditions Operating temperature -20 … +60 °C (vertical installation) EN 60068-2-14 Storage temperature-20 … +70 °CEN 60068-2-1 EN 60068-2-2 EN 60068-2-14 Operating and storage humidity 5 … 85 % RH not-condensing EN 60068-2-30Vibrations 5 … 9 Hz, 7 mm; 9 … 150 Hz, 1 g p-p EN 60068-2-6 Shock± 50 g, 11 ms, 3 pulses per axis EN 60068-2-27 Protection classFront panel IP66, Rear IP20EN 60529Electromagnetic Compatibility (EMC) Electrostatic discharge immunity test8 kV (air electrostatic discharge)4 kV (contact electrostatic discharge)EN 61000-4-2Radiated, radio-frequency, electromagnetic field immunity test 80 MHz … 1 GHz, 10 V/m 1.4 GHz … 2 GHz, 3 V/m 2 GHz … 2.7 GHz, 1 V/m EN 61000-4-3Burst immunity test±2 kV DC power port±1 kV signal lineEN 61000-4-4Surge immunity test ±0,5 kV DC power port (line to earth) ± 1 KV dc power port (line to line) ±1 kV signal line (line to earth) EN 61000-4-5Immunity to conducted disturbances inducted by radiofrequency field0.15…80 MHz, 10 VEN 61000-4-6Power frequency magnetic field immunity testEnclosure, 50 Hz, 30 A/m EN 61000-4-8Voltage dips, short interruptions and voltage variations immunity test Port: DC mains; Level:0% duration: 10 ms 20 spaces by 1 sTest executed on the 24 VDC of the EUTEN 61000-4-29Durability informationBacklight service life (LED type) 40000 hr. or more(Time of continues operation until the brightness of the backlight reaches 50 % of the rated value when the ambient temperature is 25 °C) - see Note 1Note 1: Extended use in environments where the ambient temperature is 40 °C or higher may degrade backlight quality/reliability/durability.10 3ADR010470, 3, en_US6Technical dataModel CP6407 CP6410 CP6415Display TFT Color / LED TFT Color / LED TFT Color / LEDColors 64K 64K 64KResolution 800X480 800X600 1024X768Diagonal 7” widescreen 10.4” 15”Dimming yes yes yesFlash 4GB 4GB 4GBSD card slot yes yes yesRAM 512MB 512MB 512MBSerial port RS-232,RS-485, RS-422software configurable RS-232,RS-485, RS-422software configurableRS-232,RS-485, RS-422software configurableEthernet port 2 10/100Mb 2 10/100Mb 2 10/100MbUSB port 2 Host interface ver-sion 2.01 max. 100mA, 1 max.500mA 2 Host interface ver-sion 2.01 max. 100mA, 1 max.500mA2 Host interface ver-sion 2.01 max. 100mA, 1 max.500mABattery rechargeable rechargeable rechargeableRTC yes yes yesVoltage 24Vdc (*) 24Vdc (*) 24Vdc (*)Current ratingat 24Vdc0.35A 0.40A0.70AWeight 1.0 Kg 2.0 Kg 3.5 Kg* 10-32VdcFor applications requiring compliance with EN 61131-2 and specifically in reference to 10 ms voltage dips, the power supply range voltage is 18-32Vdc.6.1DimensionsA B C H LCP6407 176 mm6.92”136 mm5.35”40 mm1.57”147,5 mm5.80”187,5 mm7.38”CP6410 276 mm10.86” 221 mm8.70”40 mm1.57”232,5 mm9.15”287,5 mm11.31”CP6415 381 mm15” 296 mm11.65”45 mm1.77”307,5 mm12.10”392,5 mm15.45”6.2Installation environmentAvoid prolonged exposition to direct sunlight to avoid the risk of overheating the device.The equipment is not intended for installation in contact with corrosive chemical compounds. Check the resistance of the front panel to a specific compound before installation.Do not use tools of any kind (screwdrivers, etc.) to operate the touch screen of the panel.In order to meet the front panel protection classifications, proper installation procedure must be followed:•The borders of the cutout must be flat•Screw up each fixing screw until the bezel corner get in contact with the panel.•The cutout for the panel must be of the dimensions indicated in this manual.The IP66 is guaranteed only if:•Max deviation from the plane surface to the cut-out: ≤ 0.5 mm•Thickness of the case where is mounted the equipment: from 1.5 mm to 6 mm•Max surface roughness where the gasket is applied: ≤ 120 μmA.CP64xxB.Installation cut-out6.3 Safety instruction6.4 Installation procedurePlace the fixing brackets contained in the fixing kit as shown in figure.7Connections7.1CP600 2nd generation1.Serial port2.Ethernet Port 03.Ethernet Port 1B Port V2.0, max. 500 mAB Port V2.0, max. 100 mA6.Power Supply7.SD Card Slot7.2 Serial portThe serial port is used to communicate with the PLC or with another type of controller. Different electrical standards are available for the signals in the PLC port connector: RS-232, RS-422, and RS-485.The serial port is software programmable. Make sure you select the appropriate interface in the programming software.Pin RS-232RS-422, RS-4851 GNDGND23 TX CHA-4 RXCHB-56 +5V output +5V output7 CTS CHB+8 RTS CHA+ 9To operate in RS-485 pins 7-8 and 3-4 must be connected externally.The communication cable must be chosen for the type of device being connected.7.3 Ethernet portThe Ethernet port has two status indicators. Please see description in figure.YellowOFF: Valid link has NOT been detected ON: Valid link has been detectedGreenON: No activity BLINKING: Activity8Power supply, grounding and shielding The power supply terminal block is shown in the figure below.Pin Description1 +24 V DC (L+)2 Common (M)3 Ground3 conductors 1,5 mm2 wire size minimum, minimum temperature conductor rating 105 °C.The unit must always be grounded to earth with 1,5 mm2 wire size minimum. Grounding helpslimit the effects of noise due to electromagnetic interference on the control system.Earth connection will have to be done using either the screw or the faston terminal locatednear the power supply terminal block. A label helps identify the ground connection. Also con-nect to ground the terminal 3 on the power supply terminal block.The power supply circuit may be floating or grounded. In the latter case, connect to groundthe power source common as shown in figure (see below) with a dashed line. When using thefloating power scheme, note that the panes internally connects the power common toground with a 1 MΩ resistor in parallel with a 4,7 nF capacitor. The power supply must havedouble or reinforced insulation. The suggested wiring for the power supply is shown below.All the electronic devices in the control system must be properly grounded. Grounding must be performed according to applicable regulations.9 BatteryCP600 2nd generation panels are equipped with rechargeable Lithium battery, not user-re-placeable.The hardware real-time clock (date and time) is maintained by the battery.When the battery is fully charged, it ensures a period of 3 months of data backup at 25 °C.Location of the battery: See “broken circle” in the picture below.9.1Dispose of batteries10Special instruction for use•Install the HMI device according to the accompanying installation instructions.•Ground the HMI device according to the accompanying installation instructions.•Only qualified personnel may install the HMI device or repair it.•Ensure that the aeration holes are not covered.•Care shall be taken not to allow layers of dust to form on the faceplate of the HMI device in a way that might cause the accumulation of static charges.Keep the faceplate of the HMI device clean: the equipment must be cleaned only with asoft cloth and neutral soap product. Do not use solvents.•This device should not be used for purposes and methods other than indicated in this document and in the documentation accompanying the product.11Cleaning faceplates12Getting startedCP600 2nd generation control panels must be programmed with the software PB610.PB610 Panel Builder is a software tool that must be properly installed on a computerrunning Microsoft Windows.There are two options to transfer a PB610 application project to a CP600 2nd generation de-vice:Ethernet Connect the CP600 2nd generation device to the computer with an Ethernetnetwork connection. From PB610 choose the command Run/Download to tar-get. You may have to ensure that the proper firewall policy has been config-ured in the computer to allow PB610 Panel Builder to access the network.USB Create an Update Package using PB610 Panel Builder and copy it to a USBFlash drive.CONTROL PANELS CP600 2ND GENERAT ION CP600 2nd generation, 3, en_US 2113 System settingsCP600 2nd generation control panels have a system settings interface to allow configurationof system options.The user interface of System Settings is based on HTML pages accessible locally on CP600or in remote using a Web browser Chrome v44 or higher on port 443(https://IP /machine_config). Default username is “admin”, default password is “admin”.Use navigation menu on the left side of the screen to browse through the available options.The active item of menu is highlighted on the left side. The right side shows relatedinformation and settings. Based on the size of the CP600 2nd generation screen, both menuand content of selected item may be shown on screen or not.Two modes of operation can be selected in the System Settings:User ModePB610 runtime is running or the CP600 2nd generation device is in “factory default” status. System Mode PB610 runtime is not running or the CP600 2nd generation devicehas a software failure. System Mode includes all options available inUser Mode and offers in additions commands dedicated to systemupgrade and recovery not available when running in User Mode.Activation of System Settings in User Mode:PB610 runtime not runningPress “System Setting” button on the CP600 2nd generation screen. PB610 runtime running Recall context menu and select “System Settings”. To recallthe context menu click and hold any unused area of thetouchscreen for a few seconds.Default hold time is 2 seconds.Activation of System Settings in System Mode:Normal operation If PB610 runtime is not running: Press “System Setting” button onthe CP600 2nd generation screen to enter in System Settings inUser Mode.Select “Restart” → “Config OS” to reboot in System Mode.If PB610 runtime is running: recall context menu and select “SystemSettings”. To recall the context menu click and hold any unused areaof the touchscreen for a few seconds.Default hold time is 2 seconds to enter in System Settings in UserMode.Select “Restart” → “Config OS” to reboot in System Mode. Recovery operation If panel is not responsive, use the so-called “tap-tap” procedure.This procedure consists in tapping the surface of the touchscreenduring the device power-up phase. Tapping frequency must be high.You have to start tapping the touchscreen as soon as power hasbeen applied to the device. When the sequence has beenrecognized, the system shows the message: “TAP-TAP DETECTED”.At this point release touch to boot in User Mode without runningPB610 runtime or press and hold few seconds (selecting so“RESTART: CONFIG OS”) to boot in System Mode.System Settings includes options for basic settings of the device.Language Configure language used for System Settings menu only.System Show information about platform, status and timers (e.g. Systemon time, backlight on time).Logs Enable persistent log for BSP and allows to export it.Date & Time Change the device date and time, including time zone andNTP ServerNetwork Configure IP Address of Ethernet interface and the other networksettings like DNS, Gateway, DHCP, Hostname, routing and bridging. Services Enable/disable services. Example of services are: Open SSH server,Cloud services, SNMP and logging.Management Update of BSP components (Main OS, Config OS, Boot loader,XLoader), check for partitions consistence, update of splash screen,information about usage and size of partitions. The update of MainOS is available only in System Mode, the update of Config OS is onlyin User Mode.Display Adjust brightness, configure automatic backlight turnoff and selectCP600 2nd generation orientation (90°, 180°, 270° and 360°). Restart Restart the device. “Main OS” option restarts as per default in UserMode, “Config OS” option restart panel directly into System Set-tings in System Mode.Authentication Configure password for administrator (“admin”) and for the stand-ard user (“user”). Administrator has full access to System Settings(updates of BSP and other system components).Standard user has some limitations.22 3ADR010470, 3, en_USCONTROL PANELS CP600 2ND GENERAT ION CP600 2nd generation, 3, en_US 2314 Unpacking and packing instructions3A D R 010470, 3, e n _U S © Copyright 2020 - 2021 ABB.All rights reserved.—ABB AGEppelheimer Straße 8269123 HeidelbergGermanyPhone: +49 6221 701 1444Fax: +49 6221 701 1382E-Mail:****************.com /plc/automationbuilder Note:We reserve the right to make technical changes or modify the contents of this document without prior notice. With regard to purchase orders, the agreed particulars shall prevail.ABB AG does not accept any responsibility whatsoever for potential errors or possible lack of information in this document.We reserve all rights in this document and in the subject matter and illustrations contained therein.Any reproduction, disclosure to third parties or utilization of its contents – in whole or in parts – is forbidden without prior written consent of ABB AG.。

MODELOS 6416 Y 6417Proporcionan un alto nivel de seguridad conla función de indicación de tensión a tierra ***64176416*6417 únicamenteESPECIFICACIONESConsulte con fábrica sobre precios de calibración NIST.CARACTERÍSTICAS• Medición de la integridad puesta a tierra• Indicación de tensión a tierra (advierte acerca de posibles condiciones no seguras)• Pantalla grande OLED multifunción• Frecuencia de prueba seleccionable (mejora la precisión en entornos inductivos)• Diámetro de pinza de 35 mm (1,37 pulg.) con diseño de abertura grande• Almacenamiento de medidas (Ω o A, con estampa de tiempo)• Modelo 6416: hasta 300 medidas almacenadas • Modelo 6417: hasta 2000 medidas almacenadas• Muestra las medidas almacenadas en la pantalla OLED o a través de Bluetooth [Clase 2 - comunica hasta 9,14 m (30 pies)] a una computadora o aplicación móvil basada en Android™ disponible en la tienda Google ® Play (modelo 6417)• Función de apagado automático• Función de alarma con umbral ajustable y señal acústica para verificaciones rápidas de campo para voltios, amperios y ohmios • Pinza y cuerpo de material Lexan ® resistente a roturas• Ajustes de alarma e información almacenada en la memoria guardados durante el apagado• Incluye software DataView ® para recuperación de datos, pantalla en tiempo real, análisis, generación de informes y configuración del sistema (modelo 6417)• Ícono de ruido y señal acústica de alerta al usuario ante la presencia de niveles de corriente y tensión peligrososINCLUYEMODELOS 6416 Y 6417Incluye maletín de transporte resistente, bucle de cali-bración, cuatro baterías AA de 1,5 V y manual de usuario.MODELO 6417Incluye además adaptador USB con Bluetooth, guía de inicio rápido, un pendrive USB con guía de principios de medición, software DataView ® y manual de usuario.N º DE CATÁLOGO DESCRIPCIÓN2141.01Medidor de resistencia de tierra modelo 6416 (pinza, alarma, memoria)2141.02Medidor de resistencia de tierra modelo 6417 (pinza, Bluetooth, alarma, memoria)PANTALLAS DE FUNCIONESRESULTADOS DE MEDICIÓN MODO DE RECUPERACIÓN DE MEMORIA ALARMADETECCIÓN DE BUCLES TENSIÓN A TIERRA IMPEDANCIA SOBRE EL RANGOMuestra la corriente de fuga y la impedanciadel bucle en la frecuencia de prueba Pantalla de fecha y hora del almacenamiento de mediciones Indica el umbral de la alarma de corriente o tensión junto con la dirección de impedanciaDetecta y muestra lecturas falsas asociadas con bucles de metal Indica la tensión potencial en el puntode mediciónIndica que la impedancia es mayor a 1500 ΩSelección de modo avanzado Función HOLD (retención)Indicador de cierre incorrecto de la pinzaIndicador de apagado automático Indicador de señal acústica activada Pantalla de fecha y hora de mediciónIndicador de carga de bateríaPantalla superior demedición de 4000 cuentas Unidad de medición de pantalla superiorUnidad de medición de pantalla principalUnidad de pantalla de medición de alarmaSeñal de tensión peligrosaPantalla de umbral de alarma Indicador de umbral de alarma Pantalla de medición principal Indica cuando el componente inductivo es insignificante enmodo avanzado Los símbolos identifican el valor mostrado en modo avanzado Modo MEM de almacenamientode datos Modo MR de recuperación dememoria Pantalla de índice de memoria Indicador de conexión Bluetooth(sólo modelo 6417)(no disponible en el modelo 6418)otro cable de prueba.*** Se deben adquirir 2 sondas SR1983 o MN82 adicionales como accesorio。

低功耗、单/双电压、微处理器复位电路
MAX6412–MAX6420（免费获取样片、数据手册资料下载）低功耗微处理器监控电路可监视1.6V至5V的系统电压。

一旦VCC电源电压或RESETIN跌落到它的复位门限、或手动复位输入被置位，这些器件将产生复位信号。

当VCC和RESETIN上升到复位门限以上、手动复位输入被释放时，复位输出将继续保持一个复位延时周期的时间。

复位延时可由外部电容设置，提供了更多的灵活性。

MAX6412/MAX6413/MAX6414提供1.575V至5V的固定复位门限，级差约为100mV，带有手动复位输入。

MAX6415/MAX6416/MAX6417提供可调节的复位输入，监视电压可低至1.26V;MAX6418/MAX6419/MAX6420提供一个固定输入和一个可调输入，用于监视双电压系统。

MAX6412/MAX6415/MAX6418具有低有效、推挽式复位输出;
MAX6413/MAX6416/MAX6419具有高有效、推挽式复位输出;
MAX6414/MAX6417/MAX6420则具有低有效、漏极开路复位输出。

所有这些器件都采用SOT23-5封装，工作于-40°C至+125°C温度范围。

MAX6412、MAX6413、MAX6414、MAX6415、MAX6416、MAX6417、MAX 6418、MAX6419、MAX6420：典型工作电路
关键特性
●监视1.6V至5V的系统电压
●电容可调的复位延时周期
●手动复位输入(MAX6412/MAX6413/MAX6414)。