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Six-NicheNew Product IntroductionDate: 27.10.2022Hank Lan6-Niche Product LinesGreen Energy Power SolutionsCharger Product CategoryCategorySectionPhotoSeriesWarrantyRemarkPortableDesktop styleENP/ENC Series 120/180/240/360W 3years Programmable Adaptor styleGC Series30/120/160/220/330W 2years Constant Voltage PA/PB Series 120/230W NPB Series 120/240/360W 3yearsBasic Programmable Voltage(NPB-120~360)StationaryScrew MountedPB Series 300/360/600/1000W NPB/NPP Series 450/750/1200/1700W 3years NPB: Intelligent auto-rangingNPP: Charger + Power 2 in 1RPB/DBU Series1600/3200W5yearsProgrammable HEP Series600/1000W6years1.Potted, Suitable for Harsh Environment 2.Programmable Rack-mountedRCB/DBR Series 1600/3200W 5 years1.Rack type, hot swap2.Programmable NEW NRND NEWNRNDBatteries CharacteristicsLithium Manganese Oxide (LiMn2O4)Lithium Cobalt Oxide (LiCoO2)Lithium Nickel Manganese Cobalt Oxide (LiNiMnCoO2)Lithium Nickel Cobalt Aluminum Oxide (LiNiCoAlO2)Lithium Iron Phosphate (LiFePO4F)LithiumTitanate(Li4Ti5O12)Absorbent Glass Mat (AGM)Enhanced Flooded Battery (EFB)Lead AcidSealed MaintenanceFree (SMF)CompleteMaintenance Free(CMF)Zenite Nihonium (ZiNn)•Complete Power : 120/240/360/450/750/1200/1700W•Complete Model : Basic NPB-120~360, Intelligent NPB-450~1700,Power supply +Charger NPP-450~1700•Intelligent Function : Auto Battery Sensing Function Charging (Patent),Built-in CANBus Protocol (NPB-450~1700)•Flexibility : Adjustable 2or 3stage Charging,Adjustable Charging Parameter (NPB)•Wide Vo Range: 12V (10.5~21V ) / 24V (21~42V ) / 48V (42~80V ) / 72V (54~100V )Covers most Lead-acid & Li-ion batteries voltage range Modification (MOQ) not needed•Smaller Size :0~45% smaller size compared to same power old gen PB series •Approvals :CB,UL, DEKRA CE/UKCA certification (62368-1+60335-2-29)•Application :Camper Van,Medical Cart, Electric Unicycle, AGV, AMR,Battery-powered Scrubber, Power Tools, Security/Fire alarm UPS and more Charger New Product IntroductionNPB / NPP FeaturesNPB SeriesNPP SeriesOutput Power 120W 240W 360W 450W 750W1200W1700W450W750W1200W1700WProduct Type Basic Charger Professional Intelligent ChargerPower Supply + Charger 2-in-1Auto Ranging ( Patent: CN111711254B )Vo Adj.( Equipped with auto ranging mode )Io Adj.CANBus Charging Stage Adjustable 2-stage or 3-stage Fixed 3-stage Suitable Batteries Lead-acid, Li-ion Lead-acid Price$$$$$$Charger New Product IntroductionNPB vs. NPP ComparisonNPB Basic Function Introduction –Charging Curve Setting (NPB-120~360series)SW Position3-stage 2-stage OFFONAuto-Ranging Mode operation onlyCharging Curve can be set via SBP-001 with computerOperating Mode SettingCharger (Factory Default)Jumper Removed Power SupplyJumper ConnectedJumper provided as accessoryCharger Power Supply setting by JumperVo/Io Adjustment Vo x Io ≤Rated Power and meet Vo vs. Io curveCharger AccessoryAccessory–Mounting bracket , Carry HandleNPB-120/240/360Series NPB/NPP-450/750/1200/1700 SeriesInverter Product CategoryCategory Product Image Series Warranty RemarkTrue Sine Wave TS Series200 /400 /700 /1000 / 1500 / 3000W3YearsTN Series1500 / 3000W Built-in AC/SolarChargerNTS Series Built-in:250W /400WExternal: 300/450/750/1200/1700/2200/3200WMEAN WELLExclusive Design NTU Series1200/1700/2200/3200WBuilt-inAC-bypass(UPS function)ISI Series500W Built-in MPPTSolar ChargerSquareSine WaveA301/2Series100/150/300/600/1000/1700/2500W 1 Year NEWNEWNRND•Full range product :Built-in Type NTS-250P/400P ( PCB Type -Exclusive product by MEAN WELL )External Type NTS-300/450/750/1200/1700/2200/3200,NTU-1200/1700/2200/3200•Environment Friendly :Packaging Eco FriendlyNo load dissipation <1.2~1.7W (NTS)•Smaller size :4~37%smaller size compared to same power old gen TS series,Casing screw hole spacing same as TS,easy for replacement•Flexibility :DIP S.W adjustable AC output voltage, frequency, saving mode -User friendly interface •Wide Input Range: 12V(10~16.5V )/24V (20~33V )/48V (40~66V ),Suitable for Lead-acid + Li-ion.Modification (MOQ) not needed.•Multiple Output Socket :EU,US, UK(Optional), AU(Optional), CN, UN •Common Application :No AC Grid,UPS Backup Supply,e.g.:Vehicle,Vessel, Regions with unstable power grids,Fire Alarm facility backup and moreInverter New Product IntroductionNTS/NTU FeaturesAC Voltage / Frequency SettingSW1SW2SW3OFF OFF 100Vac or 200Vac ON: 50Hz OFF ON 110Vac or 220Vac ON OFF 115Vac or 230Vac OFF:60HzON ON120Vac or 240VacBy SW1~3Energy Saving ModeSW4Load Condition Output Status ON:Energy Saving Mode < 10W (3sec)OFF >25WON OFF:Non-Saving ModeAlways onBy SW41.Send a load detection pulse every 3s2.Internal processor calculates the loading condition3.Decide either stand-by or output continuous power based on output currentSupport IRC1 / IRC2 / IRC3 & RS-232 / UARTNTS-250P/400P NTS-300/450NTS-750/1200/2200/3200NTU-750/1200/2200/3200 IRC 1/2/3X XRS-232 / UART(UART)XUPS Function X X XCharger/Inverter New Product IntroductionCharger and Inverter Paired OperationBattery Charger Standalone InverterAC-DC Charger (NPB series)DC-AC Inverter (NTS series)Application Example–RV Camper VanNPP-1700-48→Charge48V Bat.→ TS-700/3000-148→ microwave, fridge, AC…SD-1000L-12 12V →igniter, toilet flush motorApplication Example –Medical CartENC-180-12→ Charge 12V Bat. → TS-200-212B→ monitor, printerApplication Example –Portable Light TowerNPB-360-24→Charge 24V Bat.→TS-3000-224B→HLG-320→ LED Light TowerCharger/Inverter New Production IntroductionPotential Market•Handheld drill •Lawn mower•Tapping machine •Electric screwdriver •Detached house (Appliances...)•Vehicle (Caravan, ambulance …)•Boat (Air conditioner, TV …)•Medical cart (Monitor, AC ..)•Security & Fire alarm •Factory UPS •Office UPS•Household UPS•E-bike / scooters •Golf cart •Hoverboard •AGVElectric VehiclesRechargeable Power toolsNon-grid-tied Power SourceUtility PowerBackupOnline Expo–Landing Pagehttps:///inverter/NTS/EN/index.htmlSecurity Power SolutionsProductProfile Type SeriesName WattFunctionDesign ref.SafetyWarranty ChargerChargingAdj.UPS ACokDCOKBAT.LowNoBAT.Alarm ComBasicEnclosed SCP35W50W75W2yrsAD55W155W2yrsAdvanceLAD120W240W360W600W(TTL)(TTL)(buzzeroptional)(360/ 600WU A R To p t i o n a l)GB179453yrsOpen-FramePSC35W60W100W160W(RELAY)(TTL)2yrsDin-Rail(QuickAttach)DRC40W60W100W180W(RELAY)(TTL)3yrs 240W UL2524Security Power Quick Selection Table© 2022 MEAN WELL All rights reservedLAD (2022.8launch)AD (2000.10launch)Series LAD-120/240/360/600(Basic)LAD-360U /600U (UART communication)AD-55/ 155Output Power 120W /240W/360W/600W360W/600W55W/155W VoCH1 Power 13.8V/27.6V/41.5V/55.2V (360W/600W: 41.5V/55.2V)13.8V/27.6VCH2 Charger FunctionUPS AC OKTTL signal UART communicationBat. Low Polarity Bat.Full BuzzerAC and DC Switches Protection SC /OLP /OVP /OTP /Bat. Low / Reverse Polarity ProtectionSC /OLP /OVPSafety Approval CB/UL/EAC/RCM/CE/UKCA ; Design refer to GB17945CB/TUV/UL/EAC/CE/UKCAWarranty3 years2 yearsSecurity Power New Product IntroductionEconomical Enclosed LAD SeriesNEWLAD Series TTL Signals FunctionLAD-120/240series TTL signalsLAD-360/600(U) series TTL/(UART)signalsWith general purpose industrial PSU, security system needs to designcontrol board for AC OK, battery disconnect/reverse polarity & battery low Complicated circuit design and high costLAD series built-in these TTL signals to read AC Ok,Battery disconnect/reverse polarity, Battery low, Battery full and Discharge signal.AC Main/Battery Backup On/Off SwitchFire Safety Alarm System requires manual ON/OFF Switch for AC main supply power and Battery Backup power. Installed AC ON/OFF and Battery Backup ON/OFF Switches →Increase CostLAD series built-in AC ON/OFF & Battery Backup →Lower CostBattery BackupSwitchAC main SwitchNote: Battery Backup switch : Disconnect backup supply but battery can still be charged.ACmainsBat. BackupSecurity Power New Product IntroductionDIN-Rail Security Power DRC-180 Series•Series Model:DRC-40 / 60 / 100 / 180•Application method:Battery+DRC-180 +DC Load parallel with DC-BUS•New product features:✓Combine Power Supply+DC-UPS function (2 in 1), suitable for space limited condition ✓Built-in charger (13.8V/4A、27.6V/2A)✓Built-in AC OK , battery low alarm signal✓Battery reverse polarity protection by fuse✓Suitable 12V/24V system,Lead-Acid / Lithium-Ion battery•Application: Security system,Emergency Lighting,Fire alarm system,Access system,Car parkSecurity Power New Product IntroductionDRC-180 Application Diagram•Series Model:DRS-240 /480, Output Voltage:12V/24V/36V/48V•Digital all-in-one design =power supply + charger + DC-UPS + monitor (MODBus )•90~305Vac input,cover North America 277Vac market•Complete monitor features:AC Fail, Charger Fail, BAT. Low, DC OK, LED status…•Suitable for various battery types :•Charging current adjustable 20~100% •2-stage or 3-stage charging configurable•Safety:UL/EN 62368-1, EAC, CE, UKCA Design refer to:UL2524, EN54-4, GB17945•Application:B.A. (BDA), fire alarms, emergency lighting, etc.•Release date:2022.3Security Power New Product IntroductionAll-in-one Intelligent Security Power DRS seriesDRS-240/480 FeaturesDC OutputAlarm Relays (From-C)Connector: Temperaturecompensation, Address,Force start (UVP 87%→70%)MODBus,CANBus,SBP-001InterfaceBattery Start ButtonSVR Charging Io Adj.DIP SW, 2/3-stagesetting, curve selectionAC Input TerminalBattery Terminal•Series Model :DUPS20/40•Application :Power Supply + DUPS20/40 + Battery Parallel to DC Bus,A Peripheral DC-UPS module that can be use with SDR/NDR up to 960W•New Product Features:✓Digital design, high accuracy voltage/current detection ✓20A (480W) and 40A (960W) dual power level models✓Suitable for 24V systems, support Lead-acid or Li-Ion batteries•Application:factory automation, semiconductor fabrication, security monitoring system, fire alarm system, data center, parking lot, etc. where backup UPS is required•Release date:2021.9, DR-UPS40 is on NRND list, please recommend DUPS40Security Power New Product IntroductionDC-UPS Module DUPS20/40 SeriesApplication Example –Public Safety UPSApplication Example–Bi-Directional Amplifier6-Niche New Product SummaryApplicationProductsCategorySeriesGreen EnergyandEnergy StorageChargerNPB-120/240/360/450/750/1200/1700 WNPP-450/750/1200/1700 WInverter NTS-250P/400P/300/450/750/1200/1700/2200/3200 W NTU-1200/1700/2200/3200 W DC-DC SPOL-01/12N78SecurityEnclosedLAD-120/240/360(U) /600(U) W DIN-RailDRC-180 WDRS-240/480 W DUPS20/40ITEAdaptorGST360A/BApplicationProductCategory Series Application Est. ReleaseGreen EnergyandEnergy Storage Adaptor GPD100100W Type-C PD Charger2023.Q1(Under development)DC-DC DDRH-15/30/45/120/240RSDH-150/300PV system peripheral power supply2023.Q1(Under development) DIN Rail HDCB-1C10AHVDC circuit protection device•100~800VDC short circuit protection•Pre-charge, Remote control,Monitoring, Resettable•Pair with HVDC centralized power2023.Q2(Planning) Inverter NTN-5000AC power backup (mini-generator)•Home energy storage•Portable power station2023.Q3(Planning)6-Niche Under-Development/PlanningNEW Inverter NTS/NTU and Charger NPB/NPP are fully released, speed up PB/TS replacementGreen EnergyFrom single device to building system,MEAN WELL has complete security power products Promote PSC/SCP/LAD /DRC /DRS seriesSecuritySummary –6-Niche Product Line Promotion StrategyNiche Market ．Niche Products ．Value Added ．Higher MarginRight timingNiche Market。

66NTE Electronics, Inc. Voice (973) 748−5089 FAX (973) 748−6224 FeaturesAvailable in Linear and Audio TaperSolder Lug and Combination Type TerminalsPerfect for Consumer Electronics ApplicationsNTE Part No.Value (Ohms)Taper Switch Terminal Style Diag No.502−0401500Linear No Combination P9502−04021K Linear No Solder Lug P10502−04031K Audio Yes Combination P11502−04041K Audio No Combination P9502−04055K Audio Yes Combination P11502−04065K Linear No Solder Lug P10502−04075K Audio No Combination P9502−040810K Linear No Solder Lug P10502−040910K Linear Yes Combination P11502−041010K Audio No Combination P9502−041110KAudio Yes Combination P11502−041250KLinear No Solder Lug P10502−041350K Audio No Combination P9502−041450K Audio Yes Combination P11502−0415100K Linear No Solder Lug P10502−0416100K Audio No Combination P9502−0417100K Audio Yes Combination P11502−0418500K Linear No Solder Lug P10502−0419500K Linear Yes Combination P11502−0420500K Audio No Combination P9502−0421500K Audio Yes Combination P11502−04221M Linear No Solder Lug P10502−04231M Linear Yes Combination P11502−04241M Audio No Combination P9502−04251MAudioYesCombinationP11P1124mm PotentiometerPotentiometer − 1/2 Watt and 1/4 Watt,6mm dia. shaft, Single TurnP9P10SpecificationsElectricalResistance Range − Linear Taper: 500 to 1 Meg − Audio Taper: 1K to 1 Meg Resistance Tolerance: 20%Sliding Noise: less than 47mVResidual Resistance:20 (R > 10K) 10 (R 10K)Insulation Resistance: more than 100 Meg at 500VDC Switch Contact Resistance: less than 0.3Operating Voltage: 250VACRated Power − Linear Taper: 0.5W − Audio Taper: 0.25W Switch Rated Power: 125VAC at 1A Withstand Voltage: 1 minute at 500VACMechanicalTotal Rotation Angle: 300 10Switch Angle: 50 5Rotation Torque: 30gf.cm to 200gf.cm Switch Action: 150gf.cm to4350gf.cm Rotation Stopper Strength: 5Kgf.cm Min Shaft Push −Pull Strength: 7Kgf. Min Rotation Life: 15,000 cycles Switch Life: 10,000 cyclesMounting Hole: .312” (7.9mm) dia,EnvironmentalOperating Temperature: −10C to +70CResistance to Soldering Heat: 260C for 3 seconds。

1/15PRELIMINARY DATAMay 2000This is preliminary information on a new product now in development or undergoing evaluation. Details are subject to change without notice.M34D64M34D3264/32 Kbit Serial I²C Bus EEPROMWith Hardware Write Control on Top Quarter of Memorys Compatible with I 2C Extended Addressing sTwo Wire I 2C Serial Interface Supports 400kHz Protocol sSingle Supply Voltage:–4.5V to 5.5V for M34Dxx –2.5V to 5.5V for M34Dxx-W –1.8V to 3.6V for M34Dxx-RsHardware Write Control of the top quarter of memorys BYTE and PAGE WRITE (up to 32 Bytes)s RANDOM and SEQUENTIAL READ Modes s Self-Timed Programming Cycle s Automatic Address Incrementing s Enhanced ESD/Latch-Up Behavior s More than 1 Million Erase/Write Cycles sMore than 40 Year Data RetentionDESCRIPTIONThese electrically erasable programmable memory (EEPROM) devices are fabricated with STMicroelectronics’ High Endurance, CMOS technology. This guarantees an endurance typically well above one million Erase/Write cycles, with a data retention of 40years. The memories are organized as 8192x8 bits (M34D64)and 4096x8 bits (M34D32), and operate down toTable 1. Signal NamesE0, E1, E2Chip Enable Inputs SDA Serial Data/Address Input/Output SCL Serial Clock WC Write Control V CC Supply Voltage V SSGroundM34D64, M34D322/152.5V (for the -W version of each device), and down to 1.8V (for the -R version of each device).The M34D64 and M34D32 are available in Plastic Dual-in-Line and Plastic Small Outline packages.These memory devices are compatible with the I 2C extended memory standard. This is a two wire serial interface that uses a bi-directional data bus and serial clock. The memory carries a built-in 4-bit unique Device Type Identifier code (1010) in accordance with the I 2C bus definition.The memory behaves as a slave device in the I 2C protocol, with all memory operations synchronized by the serial clock. Read and Write operations are initiated by a START condition, generated by the bus master. The START condition is followed by a Device Select Code and RW bit (as described in Table 3), terminated by an acknowledge bit.When writing data to the memory, the memory inserts an acknowledge bit during the 9th bit time,following the bus master’s 8-bit transmission.When data is read by the bus master, the bus master acknowledges the receipt of the data byte in the same way. Data transfers are terminated by a STOP condition after an Ack for WRITE, and after a NoAck for READ.Power On Reset: V CC Lock-Out Write Protect In order to prevent data corruption and inadvertent write operations during power up, a Power On Reset (POR) circuit is included. The internal reset is held active until the V CC voltage has reached the POR threshold value, and all operations are disabled – the device will not respond to any command. In the same way, when V CC drops from the operating voltage, below the POR threshold value, all operations are disabled and the device will not respond to any command. A stable andTable 2. Absolute Maximum Ratings 1Note:1.Except for the rating “Operating Temperature Range”, stresses above those listed in the Table “Absolute Maximum Ratings” maycause permanent damage to the device. These are stress ratings only, and operation of the device at these or any other conditions above those indicated in the Operating sections of this specification is not implied. Exposure to Absolute Maximum Rating condi-tions for extended periods may affect device reliability. Refer also to the ST SURE Program and other relevant quality -STD-883C, 3015.7 (100pF, 1500 Ω)3.EIAJ IC-121 (Condition C) (200pF, 0 Ω)Symbol ParameterValue Unit T A Ambient Operating Temperature -40 to 125°C T STG Storage Temperature-65 to 150°C T LEAD Lead Temperature during Soldering PSDIP8: 10 sec SO8: 40 sec260215°C V IO Input or Output range -0.6 to 6.5V V CC Supply Voltage-0.3 to 6.5V V ESDElectrostatic Discharge Voltage (Human Body model) 24000VM34D64, M34D32valid V CC must be applied before applying any logic signal.SIGNAL DESCRIPTIONSerial Clock (SCL)The SCL input pin is used to strobe all data in and out of the memory. In applications where this line is used by slaves to synchronize the bus to a slower clock, the master must have an open drain output, and a pull-up resistor must be connected from the SCL line to V CC. (Figure 3 indicates how the value of the pull-up resistor can be calculated). In most applications, though, this method of synchronization is not employed, and so the pull-up resistor is not necessary, provided that the master has a push-pull (rather than open drain) output.Serial Data (SDA)The SDA pin is bi-directional, and is used to transfer data in or out of the memory. It is an open drain output that may be wire-OR’ed with other open drain or open collector signals on the bus. A pull up resistor must be connected from the SDA bus to V CC. (Figure 3 indicates how the value of the pull-up resistor can be calculated).Chip Enable (E2, E1, E0)These chip enable inputs are used to set the value that is to be looked for on the three least significant bits (b3, b2, b1) of the 7-bit device select code. These inputs must be tied to V CC or V SS to establish the device select code.The hardware Write Control pin (WC) is useful for protecting the top quarter of the memory (as shown in Figure 4) from inadvertent erase or write. The Write Control signal is used to enableIL IH) write instructions to the top quarter of the memory area. WhenV IL, and write operations are allowed.DEVICE OPERATIONThe memory device supports the I2C protocol. This is summarized in Figure 5, and is compared with other serial bus protocols in Application Note AN1001. Any device that sends data on to the bus is defined to be a transmitter, and any device that23/15M34D64, M34D324/15reads the data to be a receiver. The device that controls the data transfer is known as the master,and the other as the slave. A data transfer can only be initiated by the master, which will also provide the serial clock for synchronization. The memory device is always a slave device in all communication.Start ConditionSTART is identified by a high to low transition of the SDA line while the clock, SCL, is stable in the high state. A START condition must precede any data transfer command. The memory device continuously monitors (except during a programming cycle) the SDA and SCL lines for a START condition, and will not respond unless one is given.Stop ConditionSTOP is identified by a low to high transition of the SDA line while the clock SCL is stable in the highstate. A STOP condition terminates communication between the memory device and the bus master. A STOP condition at the end of a Read command, after (and only after) a NoAck,forces the memory device into its standby state. A STOP condition at the end of a Write command triggers the internal EEPROM write cycle.Acknowledge Bit (ACK)An acknowledge signal is used to indicate a successful byte transfer. The bus transmitter,whether it be master or slave, releases the SDA bus after sending eight bits of data. During the 9th clock pulse period, the receiver pulls the SDA bus low to acknowledge the receipt of the eight data bits.Data InputDuring data input, the memory device samples the SDA bus signal on the rising edge of the clock,SCL. For correct device operation, the SDA signal must be stable during the clock low-to-high25/15M34D64, M34D32transition, and the data must change only when the SCL line is low.Memory AddressingTo start communication between the bus master and the slave memory, the master must initiate a START condition. Following this, the master sends the 8-bit byte, shown in Table 3, on the SDA bus line (most significant bit first). This consists of the 7-bit Device Select Code, and the 1-bit Read/Write Designator (RW). The Device Select Code is further subdivided into: a 4-bit Device Type Identifier, and a 3-bit Chip Enable “Address” (E2,E1, E0).To address the memory array, the 4-bit Device Type Identifier is 1010b.If all three chip enable inputs are connected, up to eight memory devices can be connected on a single I 2C bus. Each one is given a unique 3-bit code on its Chip Enable inputs. When the Device Select Code is received on the SDA bus, the memory only responds if the Chip Select Code is the same as the pattern applied to its Chip Enable pins.The 8th and ‘0’ for write operations. If a match occurs on the Device Select Code, the corresponding memory gives an acknowledgment on the SDA bus during the 9th bit time. If the memory does not match the Device Select Code, it deselects itself from the bus, and goes into stand-by mode.There are two modes both for read and write.These are summarized in Table 6 and describedlater. A communication between the master and the slave is ended with a STOP condition.Each data byte in the memory has a 16-bit (two byte wide) address. The Most Significant Byte (Table 4) is sent first, followed by the Least significant Byte (Table 5). Bits b15 to b0 form the address of the byte in memory. Bits b15 to b13 are treated as a Don’t Care bit on the M34D64memory. Bits b15 to b12 are treated as Don’t Care bits on the M34D32 memory.Write OperationsFollowing a START condition the master sends a Device Select Code with the RW bit set to ’0’, as shown in Table 6. The memory acknowledges this,and waits for two address bytes. The memory responds to each address byte with an acknowledge bit, and then waits for the data byte.Writing to the memory may be inhibited if the WC input pin is taken high. Any write command with WC=1 (during a period of time from the START condition until the end of the two address bytes)will not modify the contents of the top quarter of the memory.Table 3. Device Select Code 1Note:1.The most significant bit, b7, is sent first.Device Type IdentifierChip EnableRW b7b6b5b4b3b2b1b0Device Select Code11E2E1E0RWTable 4. Most Significant ByteNote:1.b15 to b13 are Don’t Care on the M34D64 series.b15 to b12 are Don’t Care on the M34D32 series.Table 5. Least Significant Byteb15b14b13b12b11b10b9b8b7b6b5b4b3b2b1b0Table 6. Operating ModesNote:1.X = IH IL .ModeRW bit WC 1Bytes Initial SequenceCurrent Address Read 1X 1START, Device Select, RW = ‘1’Random Address Read 0X 1START, Device Select, RW = ‘0’, Address 1X reSTART, Device Select, RW = ‘1’Sequential Read 1X ≥ 1Similar to Current or Random Address Read Byte Write 0V IL 1START, Device Select, RW = ‘0’Page WriteV IL≤ 32START, Device Select, RW = ‘0’M34D64, M34D326/15contents of the addressed memory location are not modified. After each byte is transferred, the internal byte address counter (the 5 least significant bits only) is incremented. The transfer is terminated by the master generating a STOP condition.When the master generates a STOP condition immediately after the Ack bit (in the “10th bit” time slot), either at the end of a byte write or a page write, the internal memory write cycle is triggered.A STOP condition at any other time does not trigger the internal write cycle.During the internal write cycle, the SDA input is disabled internally, and the device does not respond to any requests.Minimizing System Delays by Polling On ACK During the internal write cycle, the memory disconnects itself from the bus, and copies the data from its internal latches to the memory cells.The maximum write time (t w ) is shown in Table 9,but the typical time is shorter. To make use of this,Byte WriteIn the Byte Write mode, after the Device Select Code and the address bytes, the master sends one data byte. If the addressed location is write protected by the WC pin, the location is not modified. The master terminates the transfer by generating a STOP condition.Page WriteThe Page Write mode allows up to 32 bytes to be written in a single write cycle, provided that they are all located in the same “row” in the memory:that is the most significant memory address bits (b12-b5 for the M34D64 and b11-b5 for the M34D32) are the same. If more bytes are sent than will fit up to the end of the row, a condition known as ‘roll-over’ occurs. Data starts to become overwritten (in a way not formally specified in this data sheet).The master sends from one up to 32 bytes of data,each of which is acknowledged by the memory if7/15M34D64, M34D32Random Address ReadA dummy write is performed to load the address into the address counter, as shown in Figure 8.Then, without sending a STOP condition, the master sends another START condition, and set to ‘1’. The memory acknowledges this, and outputs the contents of the addressed byte. The master must not acknowledge the byte output, and terminates the transfer with a STOP condition.Current Address ReadThe device has an internal address counter which is incremented each time a byte is read. For the Current Address Read mode, following a START condition, the master sends a Device Select Code acknowledges this, and outputs the byte addressed by the internal address counter. The counter is then incremented. The master terminates the transfer with a STOP condition, asan Ack polling sequence can be used by the master.The sequence, as shown in Figure 7, is:–Initial condition: a Write is in progress.–Step 1: the master issues a START condition followed by a Device Select Code (the first byte of the new instruction).–Step 2: if the memory is busy with the internal write cycle, no Ack will be returned and the master goes back to Step 1. If the memory has terminated the internal write cycle, it responds with an Ack, indicating that the memory is ready to receive the second part of the next instruction (the first byte of this instruction having been sent during Step 1).Read OperationsRead operations are performed independently of the state of the WC pin.M34D64, M34D328/15After the last memory address, the address counter ‘rolls-over’ and the memory continues to output data from the start of the memory block. Acknowledge in Read ModeIn all read modes, the memory waits, after each byte read, for an acknowledgment during the 9th bit time. If the master does not pull the SDA line low during this time, the memory terminates the data transfer and switches to its standby state.shown in Figure 8, without acknowledging the byte output.Sequential ReadThis mode can be initiated with either a Current Address Read or a Random Address Read. The master does acknowledge the data byte output in this case, and the memory continues to output the next byte in sequence. To terminate the stream of bytes, the master must not acknowledge the last byte output, and must generate a STOP condition. The output data comes from consecutive addresses, with the internal address counter automatically incremented after each byte output.9/15M34D64, M34D32Table 7. DC Characteristics(T A = 0 to 70 °C or –40 to 85 °C; V CC = 4.5 to 5.5 V or 2.5to 5.5V)(T A = 0 to 70 °C or –20 to 85 °C; V CC = 1.8 to 3.6 V 1)Note:1.This is preliminary data.Table 8. Input Parameters 1 (T A = 25 °C, f = 400 kHz)Note:1.Sampled only, not 100% tested.Symbol ParameterTest Condition Min.Max.Unit I LI Input Leakage Current (SCL, SDA)0V ≤ V IN ≤ V CC± 2µA I LOOutput Leakage Current0V ≤ V OUT ≤ V CC, SDA in Hi-Z ± 2µA I CCSupply CurrentV CC =5V, f c =400kHz (rise/fall time < 30ns)2mA -W series:V CC =2.5V , f c =400kHz (rise/fall time < 30ns)1mA -R series:V CC =1.8V , f c =100kHz (rise/fall time < 30ns)0.81mA I CC1Supply Current (Stand-by)V IN = V SS or V CC , V CC = 5V 10µA I CC2Supply Current (Stand-by)V IN = V SS or V CC , V CC = 2.5V 2µA I CC3Supply Current (Stand-by)V IN = V SS or V CC , V CC = 1.8V11µA V IL Input Low Voltage (E0-E2, SCL, SDA)–0.30.3 V CC V V IH Input High Voltage (E0-E2, SCL, SDA)0.7V CC V CC +1V V ILW Input Low Voltage (WC)–0.30.5V V IHWInput High Voltage (WC)0.7V CCV CC +1V V OLOutput Low VoltageI OL = 3mA, V CC = 5V0.4V -W series:I OL = 2.1mA, V CC = 2.5V 0.4V -R series:I OL = 0.15mA, V CC = 1.8V0.21VSymbol ParameterTest ConditionMin.Max.Unit C IN Input Capacitance (SDA)8pF C IN Input Capacitance (other pins)6pF Z WCL WC Input Impedance V IN < V ILW 50300k ΩZ WCH WC Input Impedance V IN > V IHW500k Ωt NSPulse width ignored(Input Filter on SCL and SDA)Single glitch50nsM34D64, M34D3210/15Table 9. AC CharacteristicsNote:1.For a reSTART condition, or following a write cycle.2.Sampled only, not 100% tested.3.To avoid spurious START and STOP conditions, a minimum delay is placed between SCL=1 and the falling or rising edge of SDA.4.This is preliminary data.SymbolAlt.ParameterM34D64 / M34D32Unit V CC =4.5 to 5.5V T A =0 to 70°C or –40 to 85°C V CC =2.5 to 5.5V T A =0 to 70°C or –40 to 85°C V CC =1.8 to 3.6VT A =0 to 70°C or –20 to 85°C 4MinMax Min MaxMin Max t CH1CH2t R Clock Rise Time 3003001000ns t CL1CL2t F Clock Fall Time 300300300ns t DH1DH2 2t R SDA Rise Time 2030020300201000ns t DL1DL2 2t F SDA Fall Time203002030020300ns t CHDX 1t SU:STA Clock High to Input Transition 6006004700ns t CHCL t HIGH Clock Pulse Width High 6006004000ns t DLCL t HD:ST AInput Low to Clock Low (START)6006004000ns t CLDX t HD:DAT Clock Low to Input T ransition 000µs t CLCH t LOW Clock Pulse Width Low 1.3 1.3 4.7µs t DXCX t SU:DATInput Transition to Clock Transition100100250ns t CHDH t SU:STO Clock High to Input High (STOP)6006004000ns t DHDL t BUF Input High to Input Low (Bus Free)1.3 1.34.7µst CLQV 3t AA Clock Low to Data Out Valid 2009002009002003500ns t CLQX t DH Data Out Hold Time After Clock Low200200200nsf C f SCL Clock Frequency 400400100kHz t Wt WRWrite Time101010msTable 10. AC Measurement ConditionsInput Rise and Fall Times ≤ 50ns Input Pulse Voltages 0.2V CC to 0.8V CC Input and Output Timing Reference Voltages0.3V CC to 0.7V CC11/1512/15Table 11. Ordering Information SchemeNote:1.Temperature range available only on request.2.The -R version (V CC range 1.8 V to3.6 V) only available in temperature ranges 5 or 1.Example:M34D64–WMN1TMemory CapacityOption6464 Kbit (8K x 8)TTape and Reel Packing3232 Kbit (4K x 8)Operating Voltage blank 4.5V to 5.5V W 2.5V to 5.5V R 21.8V to 3.6VPackageTemperature Range BN PSDIP8 (0.25 mm frame)110 °C to 70 °C MNSO8 (150 mil width)6–40 °C to 85 °C 5–20 °C to 85 °CORDERING INFORMATIONDevices are shipped from the factory with the memory content set at all 1s (FFh).The notation used for the device number is as shown in Table 11. For a list of available options (speed, package, etc.) or for further information on any aspect of this device, please contact your nearest ST Sales Office.Table 12. PSDIP8 - 8 pin Plastic Skinny DIP, 0.25mm lead frameSymb.mm inchesTyp.Min.Max.Typ.Min.Max.A 3.90 5.900.1540.232A10.49–0.019–A2 3.30 5.300.1300.209B0.360.560.0140.022B1 1.15 1.650.0450.065C0.200.360.0080.014D9.209.900.3620.390E7.62––0.300––E1 6.00 6.700.2360.264e1 2.54––0.100––eA7.80–0.307–eB10.000.394L 3.00 3.800.1180.150N8813/15Table 13. SO8 - 8 lead Plastic Small Outline, 150 mils body widthSymb.mm inchesTyp.Min.Max.Typ.Min.Max.A 1.35 1.750.0530.069A10.100.250.0040.010 B0.330.510.0130.020 C0.190.250.0070.010D 4.80 5.000.1890.197E 3.80 4.000.1500.157e 1.27––0.050––H 5.80 6.200.2280.244h0.250.500.0100.020 L0.400.900.0160.035α0°8°0°8°N88CP0.100.00414/15Information furnished is believed to be accurate and reliable. However, STMicroelectronics assumes no responsibility for the consequences of use of such information nor for any infringement of patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of STMicroelectronics. Specifications mentioned in this publication are subject to change without notice. This publication supersedes and replaces all information previously supplied. STMicroelectronics products are not authorized for use as critical components in life support devices or systems without express written approval of STMicroelectronics.© 2000 STMicroelectronics - All Rights ReservedThe ST logo is a registered trademark of STMicroelectronics.All other names are the property of their respective owners.STMicroelectronics GROUP OF COMPANIESAustralia - Brazil - China - Finland - France - Germany - Hong Kong - India - Italy - Japan - Malaysia - Malta - Morocco - Singapore - Spain -Sweden - Switzerland - United Kingdom - U.S.A.15/15。

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Model M3506Current ControllerCustomer Reference ManualWeb: ●Tel: 615-244-2825 ●Email:*****************Bonitron, Inc.2Bonitron, Inc.Nashville, TNAn industry leader in providing solutions for AC drives.A BOUTB ONITRONBonitron designs and manufactures quality industrial electronics that improve the reliability of processes and variable frequency drives worldwide. With products in numerous industries, and an educated and experienced team of engineers, Bonitron has seen thousands of products engineered since 1962 and welcomes custom applications.With engineering, production, and testing all in the same facility, Bonitron is able to ensure its products are of the utmost quality and ready to be applied to your application.The Bonitron engineering team has the background and expertise necessary to design, develop, and manufacture the quality industrial electronic systems de manded in today’s market. A strong academic background supported by continuing education is complemented by many years of hands-on field experience. A clear advantage Bonitron has over many competitors is combined on-site engineering labs and manufacturing facilities, which allows the engineering team to have immediate access to testing and manufacturing. This not only saves time during prototype development, but also is essential to providing only the highest quality products. The sales and marketing teams work closely with engineering to provide up-to-date information and provide remarkable customer support to make sure you receive the best solution for your application. Thanks to this combination of quality productsand superiorcustomer support, Bonitron has products installed in critical applications worldwide.Bonitron, Inc.3AC D RIVE O PTIONSIn 1975, Bonitron began working with AC inverter drive specialists at synthetic fiber plants to develop speed control systems that could be interfaced with their plant process computers. Ever since, Bonitron has developed AC drive options that solve application issues associated with modern AC variable frequency drives and aid in reducing drive faults. Below is a sampling of Bonitron’s current product offering.W ORLD C LASS P RODUCTSUndervoltage SolutionsOvervoltage SolutionsUninterruptible Power for Drives(DC Bus Ride-Thru) Voltage Regulators Chargers and DischargersEnergy StorageBraking Transistors Braking Resistors Transistor/Resistor ComboLine RegenerationDynamic Braking for Servo DrivesCommon Bus SolutionsPortable Maintenance SolutionsSingle Phase Power Supplies 3-Phase Power Supplies Common Bus DiodesCapacitor Formers Capacitor TestersPower Quality SolutionsGreen Solutions12 and 18 Pulse KitsLine RegenerationM350641. I NTRODUCTION (7)1.1. Who Should Use ........................................................................................................................... 7 1.2. Purpose and Scope ........................................................................................................................ 7 1.3. Manual Version and Change Record .. (7)Figure 1-1: M3506 50 Amp Current Controller (7)2. P RODUCT D ESCRIPTION (8)2.1. Part Number Breakdown .............................................................................................................. 8 Figure 2-1: Example of Current Controller Part Number Breakdown ......................................................... 8 Table 2-1: Voltage Rating............................................................................................................................ 8 Table 2-2: Chassis Size ................................................................................................................................ 8 2.2. General Specifications Chart .. (9)Table 2-3: 50 Amp Controller Specifications .............................................................................................. 9 Table 2-4: 80 Amp Controller Specifications ............................................................................................ 10 2.3. General Precautions and Safety Warnings (11)3. I NSTALLATION I NSTRUCTIONS (12)3.1. Environment (12)3.2. Unpacking ................................................................................................................................... 12 3.3. Mounting (12)Figure 3-1: M3506 Mounting Orientation ................................................................................................. 12 Table 3-1: M3506 Chassis and Mounting Dimensions .............................................................................. 13 Figure 3-2: 50 Amp Controller Dimensional Outline ................................................................................ 13 Figure 3-3: 80 Amp Controller Dimensional Outline ................................................................................ 13 Table 3-2: Cryovac Transformer and Mounting Dimensions .................................................................... 14 Figure 3-4: Cryovac Transformer Dimensional Outline ............................................................................ 14 3.4. Wiring and Customer Connections ............................................................................................. 15 Power Wiring .................................................................................................................................... 15 3.4.1. I/O Wiring .. (15)3.4.2.Figure 3-5: 50 Amp Controller Wiring (C6) .............................................................................................. 15 Figure 3-6: 80 Amp Controller Wiring (K6) ............................................................................................. 15 Figure 3-7: Terminal Configuration 1 ........................................................................................................ 17 Figure 3-8: Terminal Configuration 2 .. (17)4. O PERATION (19)4.1. Functional Description ............................................................................................................... 19 4.2. Features ....................................................................................................................................... 19 All Control Signals Connect to TS1 .................................................................................................. 19 4.2.1. M3506 includes Front Panel Indicators. ............................................................................................ 20 4.2.2.4.3. Startup ......................................................................................................................................... 20 Pre-Power Checks ............................................................................................................................. 20 4.3.1. Startup Procedure and Checks ........................................................................................................... 20 4.3.2.4.4. Operational Adjustments ............................................................................................................ 21 4.5. Calibration . (21)Table 4-1: M3506 Factory Calibration Specifications (21)5. M AINTENANCE AND T ROUBLESHOOTING (21)5.1. Periodic Testing (21)6. E NGINEERING D ATA (22)6.1. Ratings Charts (22)Figure 6-1: 10 Turn Dial Pot vs. Output Current for 80 Amp ................................................................... 22 Figure 6-2: Linearity at Various Loads and Voltages – 80 Amp ............................................................... 23 Figure 6-3: Line / Load Regulation at 67 Volts ......................................................................................... 24 Figure 6-4: Line / Load Regulation at 120 Volts (25)Table of Contents 6.2.Watt Loss (26)6.3.Certifications (26)6.4.Fuse/Circuit Breaker Sizing and Rating (26)6.5.Block Diagram (27)Figure 6-5: Current Controller Kit Block Diagram (27)6.6.Parts List (28)6.7.Recommended Spare parts (28)NOTES (29)5M3506This page intentionally left blank. 6User’s Manual1. I NTRODUCTION1.1. W HO S HOULD U SEThis manual is intended for use by anyone who is responsible for integrating,installing, maintaining, troubleshooting, or using this equipment with any AC DriveSystem.Please keep this manual for future reference.1.2. P URPOSE AND S COPEThis manual is a user’s guide for the Model M3506 Programmable CurrentController. It will provide the user with the necessary information to successfullyinstall the M3506.In the event of any conflict between this document and any publication and/ordocumentation related to the drive system, the latter shall have precedence.1.3. M ANUAL V ERSION AND C HANGE R ECORDAs the latest rev (03) of this manual, this version incorporates graphs, additional dataand Bonitron’s new formatting.The About Bonitron section was updated in Rev 04.The manual template was updated in Rev 05.Figure 1-1: M3506 50 Amp Current Controller7M350682. P RODUCT D ESCRIPTIONThe M3506 Current Controller is designed to output a regulated DC current into various seal wire impedances, with consistent rise and fall times. The AC power feed supply can range from 10VAC to 130VAC. The controller can achieve better than 1% regulation with a 20% change in load or line. The current can be controlled by an external 5k reference pot which is tailored with a limit pot, or by a 4-20mA remote control loop. The enable input uses its own isolated voltage, and can be enabled with a dry contact, or a 12V signal. No control signals should ever be earth grounded. A 0-10mA output is available for reading the current. This output is held for 2 seconds after the current is gone so that the meter will read steady while unit is in production. For more detailed information on unit operations please refer to the Cryovac User Manual2.1. P ART N UMBER B REAKDOWNFigure 2-1: Example of Current Controller Part Number BreakdownB ASE M ODEL N UMBER :The Base Model Number for the Current Controller is M3506.V OLTAGE R ATINGThe Voltage Rating is indicated by a Code Letter….C URRENT R ATING :The Current rating is represented by a 3-digit value. For instance, the rating for a 50 Amp unit is 050.C HASSIS :The Chassis is determined by the unit Current Rating.NOTE: as M3506-0004 is M3506-U050-C6, as per the above chart.M ODEL N UMBER C URRENT R ATING V OLTAGE R ATING M3506U C HASSISK6080User’s Manual2.2. G ENERAL S PECIFICATIONS C HARTTable 2-3: 50 Amp Controller SpecificationsPlease see Table 2-4 for 80 Amp Controller Specifications.C ONTROL S ECTIONS TATUS I NDICATORS9M350610Table 2-4: 80 Amp Controller Specifications Please see Table 2-3 for 50 Amp Controller Specifications. P OWER S ECTIONC ONTROL S ECTIONS TATUS I NDICATORS2.3. G ENERAL P RECAUTIONS AND S AFETY W ARNINGSDANGER!CAUTION!ANY QUESTIONS AS TO APPLICATION, INSTALLATION, OR SERVICESAFETY SHOULD BE DIRECTED TO THE EQUIPMENT SUPPLIER.113. I NSTALLATION I NSTRUCTIONSWARNING!Proper installation of the Current Controller should be accomplished following the steps outlined below. Be sure to refer to the AC Drive instruction manual as these steps are performed. Please direct all installation inquiries that may arise during the installation and start up of this product to the equipment supplier or system integrator.3.1. E NVIRONMENTThe module should be installed in an area protected from moisture and falling debris. Buildup of dust or debris may cause poor performance and possibly a failure. Operating in a wet environment can pose a shock hazard. The recommended temperature range for operating or storing this module is 0︒C to+40︒C.3.2. U NPACKINGUpon receipt of this product, please verify that the product received matches the product that was ordered and that there is no obvious physical damage to the unit. If the wrong product was received or the product is damaged in any way, please contact the supplier from which the product was purchased.3.3. M OUNTINGThe installation site for the module should be chosen with several considerations in mind:∙ The unit requires a minimum clearance of two (2) inches in all directions aroundit when mounted near a non-heat source.∙ Unit should not be exposed to falling debris or condensation.∙ Once the installation site has been selected as outlined above, the unit shouldbe mounted in place. The M3506 must be properly oriented for proper heat flow through the units. The M3506 must be mounted with the rear surface of the unit to the mounting surface. Unit should be mounted vertically as shown in Example A of Figure 3-1.Table 3-1: M3506 Chassis and Mounting DimensionsTable 3-2: Cryovac Transformer and Mounting Dimensions3.4. W IRING AND C USTOMER C ONNECTIONSP OWER W IRING3.4.1.Max torque for power wiring∙50 Amp unit = 45 in-lbs.∙80 Amp unit = 32 in-lbs.S OURCE C ONSIDERATIONS3.4.1.1.M3506-U050 requires 6.5kW feed at 120VAC.M3506-U080 requires 10.5kW feed at 120VAC.G ROUNDING R EQUIREMENTS3.4.1.2.M3506 chassis should be earth grounded.DC output should NOT be earth grounded.I/O W IRING3.4.2.Figure 3-5: 50 Amp Controller Wiring (C6)16 Dwg: 060272 Rev 2007031518Dwg: 060276 Rev: 200611144. O PERATION4.1. F UNCTIONAL D ESCRIPTIONPower for the load is derived from the 3-phase, 60 or 120VAC input. Control poweris derived from a single phase 120VAC input. An isolated 12V supply output isavailable for the external enable signal so that the enable can be driven directly froma non-isolated source.Upon application of power, the DC bus will be charged and will await enable andcurrent control commands. Once an enable command is given, the M3506 CurrentController will begin switching to supply current to the load directly proportional to thecurrent control signal.The load power can be controlled by changing the current signal level, or the enableON time. Adjusting the externally mounted potentiometer or changing the remote 4-20mA signal will vary the current level output.The load current can be monitored via an external 0-10mA signal proportional to theactual current.M3506 controller will maintain a steady output current level within 1% of set-point,even as the AC line changes voltage and the load wire changes resistance due to itsinternal heating.4.2. F EATURESA LL C ONTROL S IGNALS C ONNECT TO TS14.2.1.∙For 50A units TS1 is on the front panel of the controller.∙For 80A units TS1 is at the top of the controller, behind the top cover plate.C ONTROL V OLTAGE120VAC control power hot connects to TS1-11 and neutral connects toTS1-12. Earth ground is connected to ground stud at bottom of terminalstrip.E NABLEThe current enable signal is connected to TS1-7 & 8, and is high toenable controller. A 12VDC isolated supply to allow use with a non-isolated enable source is found at TS1-6 & 8. Enable contact can beconnected to TS1-6 & 7, or an enable voltage can be connected to TS1-7 & 8.E XTERNAL R EFERENCE P OTA 5k potentiometer can be used to control the current from the local frontpanel of the cabinet housing the current controller. The pot can beconnected to TS1-1, 2 & 3. When the pot is used for control, jumper J2must be ON.E XTERNAL 4-20M A R EFERENCEA 4-20mA loop can be used to control the current from a remote source.This loop can be connected to TS1-4 & 5. When the 4-20mA control isused for control, jumper J3 must be ON.0-10M A C URRENT M ETER O UTPUTA 0-10mA output loop is provided to monitor the current level output.This loop can be connected to TS1-9 &10.19M3506 INCLUDES F RONT P ANEL I NDICATORS.4.2.2.C URRENT O NGreen LED indicates the remote enable command has been receivedand is active.O VERTEMPRed LED indicates the controller has overheated.C ONTROL V OLTAGEGreen LED indicates the 120 control voltage is present.B US VOLTAGEAmber LED indicates bus voltage is present. LED will be brighter for a120V than for a 60V input.4.3. S TARTUPP RE-P OWER C HECKS4.3.1.1. Remove side panel and ensure pcb jumpers are in the correct position forcontrol scheme:∙J1 = ON for 60VAC 3-phase input power∙J1 = OFF for 120V 3-phase input power (Factory set for 120VAC inputpower)∙J2 = ON for current control via front panel 5k potentiometer∙J3 = ON for current control via remote 4-20mA loop2. Re-install side cover3. Ensure all control connections are made to proper terminations at TS14. Ensure 3-phase AC power is properly connected∙50 amp units - bottom of fuses on front panel∙80 amp units - TS2-1, 2 & 35. Ensure seal wire is connected to DC output terminals, and is not earthgrounded∙50 amp units - bottom right DC terminals∙80 amp units - TS2-5 & 6. Earth ground to TS2-4S TARTUP P ROCEDURE AND C HECKS4.3.2.1. Apply 115VAC control power∙Control power LED should illuminate2. Apply main 3- phase power∙DC bus LED should illuminate3. Preset current command to desired level4. Turn on enable signal and ensure:∙Enable LED illuminates∙Output current goes to set-point∙0-10mA meter reads output current204.4. O PERATIONAL A DJUSTMENTSThere is a LIMIT pot used to limit the 5k reference pot maximum current:50 AMP UNITS:This is located on the front panel near the top and to the right of TS1. It is factory setto limit the current to 36 amps.80 AMP UNITS:This is located to the right of TS1 under the top cover plate. It is factory set to limitthe current to 80 amps.4.5. C ALIBRATIONM3506 is factory calibrated and should not be adjusted in the field. Send the unitback to Bonitron if calibration is required.Table 4-1: M3506 Factory Calibration Specifications5. M AINTENANCE AND T ROUBLESHOOTINGRepairs or modifications to this equipment are to be performed by Bonitron approved personnel only. Any repair or modification to this equipment by personnel not approved by Bonitron will void any warranty remaining on this unit.5.1. P ERIODIC T ESTINGNo periodic maintenance is necessary.21226. E NGINEERING D ATA6.1. R ATINGS C HARTSFigure 6-1: 10 Turn Dial Pot vs. Output Current for 80 AmpP o t D i a l v s O u t p u t C u r r e n t0.0020.0040.0060.0080.00100.00120.001002003004005006007008009001000O u t p u t C u r r e n t23Figure 6-2: Linearity at Various Loads and Voltages – 80 Amp4-20m a v s O u t p u t C u r r e n t0.0020.0040.0060.0080.00100.00120.0045.607.208.8010.4012.0013.6015.2016.8018.4020.00O u t p u t C u r r e n t24L i n e r e g u l a t i o n @ v a r i o u s l o a d s7878.57979.58080.58160.36773.7L i n e v o t l a g eD C o u t p u t c u r r e n t25L i n e r e g u l a t i o n @ v a r i o u s l o a d s7878.57979.58080.5108120132L i n e v o l t a g eD C o u t p u t c u r r e n t6.2. W ATT L OSSM3506 units are 93% efficient, or better.6.3. C ERTIFICATIONSNone.6.4. F USE/C IRCUIT B REAKER S IZING AND R ATING266.5. B LOCK D IAGRAMFigure 6-5: Current Controller Kit Block Diagram27Dwg: 010242 Rev: 200108036.6. P ARTS L IST6.7. R ECOMMENDED S PARE PARTSFor 50A Unit: FWH-60 Amp fuses28NOTES2930D3506_CMAN_VALL_05 07/10/2014 521 Fairground Court ● Nashville, TN 37211 ● USATel: (615) 244-2825 ● Fax: (615) 244-2833 ● Email: ● Email:*****************。

GNTE67MOSFETN−Ch, Enhancement ModeHigh Speed SwitchDescription:The NTE67 is a TMOS Power FET in a TO220 type package designed for high voltage, high speed power switching applications such as switching regulators, converters, solenoid and relay drivers.Features:D Lower R DS(ON)D Improved Inductive RuggednessD Fast Switching TimesD Lower Input CapacitanceD Extended Safe Operating AreaD Improved High Temperature ReliabilityAbsolute Maximum Ratings:Drain−Source Voltage (T J = +255C to +1505C), V DSS400V.................................. Drain−Gate Voltage (R GS = 1M+, T J = +255C to +1255C), V DGR400V......................... Gate−Source Voltage, V GS+20V......................................................... Continuous Drain Current, I DT C = +255C 4.5A .................................................................T C = +1005C 3.0A ................................................................ Pulsed Drain Current (Note 2), I DM18A................................................... Pulsed Gate Current, I GM+1.5A.......................................................... Single Pulsed Avalanche Energy (Note 3), E AS290mJ...................................... Avalanche Current, I AS 5.5A ............................................................. Total Power Dissipation (T C = +255C), P D75W............................................Derate Above 255C0.6W/5C....................................................... Operating Junction Temperature Range, T J−555 to +1505C..................................Storage Temperature Range, T stg−555 to +1505C..........................................Lead Temperature (During Soldering, 1/8” from case, 5sec max.), T L+3005C................... Thermal Resistance, Junction−to−Case, R thJC 1.67K/W..................................... Thermal Resistance, Junction−to−Ambient, R thJA80K/W.................................... Thermal Resistance, Case−to−Sink (Mounting surface flat, smooth, and greased), R thCS0.24K/W Note 1.Pulse Test: Pulse Width 3 300.s, Duty Cycle 3 2%.Note 2.Repetitive rating: Pulse width limited by max, junction temperature.Note 3.L = 17mH, V dd = 50V, R G = 25+, Starting T J = +255C.Rev. 10−13Electrical Characteristics: (T C = +255C unless otherwise specified)Parameter Symbol Test Conditions Min Typ Max UnitDrain−Source Breakdown Voltage BV DSS V GS = 0V, I D = 250.A400−−V Gate Threshold Voltage V GS(th)V DS = V GS, I D = 250.A 2.0− 4.0V Gate−Source Leakage, Forward I GSS V GS = 20V−−100nA Gate−Source Leakage, Reverse I GSS V GS = −20V−−−100nA Zero Gate Voltage Drain Current I DSS V DS = Max. Rating, V GS = 0V−−250.AV DS = Max. Rating x 0.8, V GS = 0V,T C = +1255C−−1000.A On−State Drain−Source Current I D(on)V DS > I D(on) x R DS(on)max, V GS = 10V, Note 1 4.5−−AStatic Drain−Source On−StateResistanceR DS(on)V GS = 10V, I D = 3A, Note 1− 1.0 1.5+ Forward Transconductance g fs V DS. 50V, I D = 3A, Note 1 2.9 4.4−mhos Input Capacitance C iss V GS = 0V, V DS = 25V, f = 1MHz−780−pF Output Capacitance C oss−99−pF Reverse Transfer Capacitance C rss−43−pFTurn−On Delay Time t d(on)V DD = 0.5BV DSS, I D = 5.5A, Z O = 12+(MOSFET switching times are essentiallyindependent of operating temperature)−1117nsRise Time t r−1929ns Turn−Off Delay Time t d(off)−3756ns Fall Time t f−1624nsTotal Gate Charge(Gate−Source Plus Gate−Drain)Q g V GS = 10V, I D = 5.5A, V DS = 0.8 Max. Rating(Gate charge is essentially independent ofoperating temperature)−1830nCGate−Source Charge Q gs−40−nC Gate−Drain (“Miller”) Charge Q gd−14−nCNote 1.Pulse Test: Pulse Width 3 300.s, Duty Cycle 3 2%.Source−Drain Diode Ratings and Characteristics:Parameter Symbol Test Conditions Min Typ Max Unit Continuous Source Current (Body Diode)I S−− 4.5A Pulse Source Current (Body Diode)I SM Note 2−−18A Diode Forward Voltage V SD T C = +255C, I S = 4.5A, V GS = 0V−− 1.6V Reverse Recovery Time t rr T J = +255C, I F = 5.5A, dI F/dt = 100A/.s−310660nsNote 1.Pulse Test: Pulse Width 3 300.s, Duty Cycle 3 2%.Note 2.Repetitive rating: Pulse width limited by max, junction temperature.。

Series 6, Built-in microwave oven, 59 x 38 cm, Stainless steelBFL554MS0B Included accessories 1 x TurntableThe built-in microwave for the 38 cm niche:use it for thawing, heating and perfect preparation of foods.AutoPilot 7: every dish is a perfect success thanks to 7 pre-set automatic programmes.Pop-out controls: for an easy to clean front.LED lighting: perfect illumination of foods with minimum energy consumption.Technical DataType of micro-wave oven : MW only Type of control : ElectronicColor / Material Front : Stainless steel Dimensions : 382 x 594 x 388 mmCavity dimensions : 208.0 x 328.0 x 369.0 mm Length of electrical supply cord : 130 cm Net weight : 18.5 kg Gross weight : 21.1 kgEAN code : 4242005038961Maximum micro-wave power : 900 W Connection rating : 1450 W Fuse protection : 10 A Voltage : 230-240 V Frequency : 50 Hz Plug type : GB plugCavity dimensions : 208.0 x 328.0 x 369.0 mm Included accessories : 1 x Turntable'!2E 20A F -a d i j g b !1/3Series 6, Built-in microwave oven, 59 x 38cm, Stainless steelBFL554MS0BThe built-in microwave for the 38 cm niche:use it for thawing, heating and perfectpreparation of foods.Design-LED Display, white-Side opening door, left hinged-31.5 cm Glass turntable-Cavity inner surface: stainless steel-Electronic clock timerFeatures-Automatic safety switch offDoor contact switch-AutoPilot, 7-LED light-Integral cooling fanProgrammes/functions-900 W maximum microwave power and the following options180 W, 360 W, 600 W, 90 W, 900 W-4 defrost and 3 cooking programmes in microwave function-1 memory settingAccessories-1 x TurntablePerformance/technical information-Cavity volume: 25 l-130 cm Cable length-Total connected load electric: 1.45 KW-Nominal voltage: 230 - 240 V-Appliance dimension (hxwxd): 382 mm x 594 mm x 388 mm-Niche dimension (hxwxd): 380 mm - 382 mm x 560 mm - 568mm x 550 mm-Please refer to the dimensions provided in the installationmanual2/3Series 6, Built-in microwave oven, 59 x 38cm, Stainless steelBFL554MS0B3/3。

Eaton 120660Eaton Moeller series xPole - mRB4/6 RCBO - residual-current circuit breaker with overcurrent protection. RCD/MCB, 16A, 30mA, C-LS-Char, 3N pole, FI-Char: AGeneral specificationsEaton Moeller series xPole - mRB4/6 RCBO - residual-current circuit breaker with overcurrent protection120660401508118490380 mm 75.5 mm 70 mm 0.445 kg RoHS conform CEmRB6-16/3N/C/003-AProduct NameCatalog Number EANProduct Length/Depth Product Height Product Width Product Weight Compliances Certifications Model CodeTri-stable slide catch - enables removal from existing busbar combination16 AIs the panel builder's responsibility. The specifications for the switchgear must be observed.2 mm6 kAMeets the product standard's requirements.Is the panel builder's responsibility. The specifications for the switchgear must be observed.3Does not apply, since the entire switchgear needs to be evaluated.Meets the product standard's requirements.6 kA50 HzIs the panel builder's responsibility.40.03 ABusbar tag shroud to VBG4eaton-xpole-mrb4-rcbo-catalog-ca019058en-en-us.pdfeaton-xpole-mrb6-rcbo-catalog-ca019057en-en-us.pdf03_mRB-3p_200416DA-DC-03_mRB-3N03_mRB-3N_281118eaton-mcb-xpole-mrb4-6-characteristic-curve.epseaton-xeffect-frbm6/m-characteristic-curve-002.jpgeaton-mcb-xpole-mrb4-6-dimensions.epseaton-xeffect-frbm6/m-dimensions-004.jpgDimensions xPole mRB4/mRB6 3N3D Drawing xPole mRB4/mRB6 3NIL019140ZUeaton-xpole-combined-mcb-rcd-device-rcbo-packaging-manual-multilingual.pdfDA-CS-faz_3pn_4pDA-CD-faz_3pn_4pCharacteristics xPole mRB4/mRB6 3Neaton-xeffect-frbm6/m-wiring-diagram-002.jpgeaton-mcb-xpole-mrb4-6-wiring-diagram.epsContact Sequence xPole mRB4/mRB6 3NMounting styleRated operational current for specified heat dissipation (In) 10.11 Short-circuit ratingMaterial thicknessRated switching capacity (IEC/EN 61009)10.4 Clearances and creepage distances10.12 Electromagnetic compatibilityCurrent limiting class10.2.5 Lifting10.2.3.1 Verification of thermal stability of enclosures Rated short-circuit breaking capacity (EN 60947-2) Frequency rating10.8 Connections for external conductorsNumber of poles (total)Fault current ratingTerminal protection Catalogues Certification reports Characteristic curve DrawingsInstallation instructions mCAD modelTime/current curves Wiring diagramsSensitivity typeType A, pulse-current sensitiveRated fault currents of product range30, 100, 300 MilliAmpereAmbient operating temperature - max40 °CHeat dissipation per pole, current-dependent0 WClimatic proofingIEC 68-2: 25 °C - 55 °C at 90 % - 95 % humidityBuilt-in depth70 mmDegree of protection (built in)IP40FeaturesConcurrently switching N-neutralBack-up fuse100 Ampere gLConnectable conductor cross section (solid-core) - min 1 mm²10.9.3 Impulse withstand voltageIs the panel builder's responsibility.Number of polesThree-pole + NAmbient operating temperature - min-25 °C10.6 Incorporation of switching devices and components Does not apply, since the entire switchgear needs to be evaluated.Selectivity class310.5 Protection against electric shockDoes not apply, since the entire switchgear needs to be evaluated.Rated switching capacity6 kAEquipment heat dissipation, current-dependent10.9 WTripping characteristicC10.13 Mechanical functionThe device meets the requirements, provided the information in the instruction leaflet (IL) is observed.10.2.6 Mechanical impactDoes not apply, since the entire switchgear needs to be evaluated.10.9.4 Testing of enclosures made of insulating materialIs the panel builder's responsibility.Static heat dissipation, non-current-dependent0 WApplicationSwitchgear for residential and commercial applications10.3 Degree of protection of assembliesDoes not apply, since the entire switchgear needs to be evaluated.Voltage typeACNumber of poles (protected)4Leakage current typeAFrame45 mmRated short-circuit breaking capacity (EN 61009-1)6 kATrippingNon-delayedOperating ambient temperature - min-25 °CTerminals (top and bottom)Twin-purposeHeat dissipation capacity0 WRelease characteristicCImpulse withstand currentPartly surge-proof, 250 AVoltage rating at AC230 V / 400 VProduct rangemRB6Width in number of modular spacings4Power loss0 W10.2.3.2 Verification of resistance of insulating materials to normal heatMeets the product standard's requirements.10.2.3.3 Resist. of insul. mat. to abnormal heat/fire by internal elect. effectsMeets the product standard's requirements.Rated short-circuit breaking capacity (EN 61009)6 kAOperating ambient temperature - max40 °CVoltage rating400 V10.9.2 Power-frequency electric strengthIs the panel builder's responsibility.Connectable conductor cross section (solid-core) - max25 mm²Degree of protectionIP20Overvoltage categoryIIIPollution degree210.7 Internal electrical circuits and connectionsIs the panel builder's responsibility.Connectable conductor cross section (multi-wired) - min1 mm²Rated impulse withstand voltage (Uimp)4 kVRated non-tripping current0.5 x I∆n10.10 Temperature riseThe panel builder is responsible for the temperature rise calculation. Eaton will provide heat dissipation data for the devices.Basic functionCombined RCD/MCB devicesStandardsIEC/EN 61009Rated current16 ARated switching capacity (IEC/EN 60947-2)6 kAOperating ambient temperature hintKeep in mind the derating at temperatures higher than 40 °CSolid terminal capacities1 - 25 Square MillimeterConnectable conductor cross section (multi-wired) - max25 mm²TypeRCBO10.2.2 Corrosion resistanceMeets the product standard's requirements.Surge current capacity0.25 kA10.2.4 Resistance to ultra-violet (UV) radiationMeets the product standard's requirements.10.2.7 InscriptionsMeets the product standard's requirements.Rated short-circuit breaking capacity (IEC 60947-2)0 kADevice height80 mmDisconnection characteristicUndelayedProduct applicationEaton Corporation plc Eaton House30 Pembroke Road Dublin 4, Ireland © 2023 Eaton. All rights reserved. Eaton is a registered trademark.All other trademarks areproperty of their respectiveowners./socialmediaSwitchgear for industrial and advanced commercial applications 400 V6 - 25 Ampere500 VRated operational voltage (Ue) - max Rated current of product range Rated insulation voltage (Ui)。