1805181中文资料

Electrical CharacteristicsParameter Sym Conditions Min Typical MaxUnitPower Requirements Power Supply Vcc ± 5% ± 5%3.1354.75 3.305.0 3.465 5.25 Vdc Vdc Turn-On Power Pmax Vcc = Max., Std. Load3.54.0WSteady State Power Pss Vcc = Max, Std. Load @ +25°C 1.5 W Warm-Up Time Twu To meet full spec @ +25°C 15 minutes Frequency StabilitiesCenter Frequency f nom 10.0 10, 12.8, 16.384,19.44, 20, 25, 26 38.88 MHzInitial Tolerancef calTa = +25°C (At time of Shipment) ± 0.2 ± 0.5 ppm Frequency vs. Temperature ∆f/∆TempOver Operating Temperature± 6 ± 8ppbFrequency vs. Voltage ∆f/∆Vcc Vcc ± 5% ± 1 ppb Frequency vs Time (Aging) ∆f/∆Time per Day20 years± 1 ± 1.5 ppb ppm 24 Hour Holdover Stability ∆f/24Hr Inclusive of Temperature, Supply Variation and 24 hours Aging ± 8 ± 10 ppb Total Free-RunningAccuracy∆f/Life All Conditions for 20 years (Reference to f nom ) ± 2.1 ppm Electrical Freq Adjust Option ∆f/Vc Vc = 0 V to Vcc ±0.75 ppm Waveform: HCMOS OutputSymmetrySym@ 50% Level40 50 60 % Amplitude VoLogic “1”Logic “0” 0.9Vcc0.1Vcc V V Rise/Fall Times tr, tf 20% to 80% 4 7 nSec LoadRLOutput to Ground10K Ω // 15pFSub-Harmonics -25 dBc Phase Noise Offset = 1 Hz -70 -60 dBc/Hz 10 Hz -105 -95 dBc/Hz 100 Hz -130 -125 dBc/Hz 1 KHz -140 -130 dBc/Hz10 KHz-142-135dBc/HzEnvironmental and Mechanical Requirements Storage Temperature : -55°C to +125°CReflow Soldering : Will withstand 240°C for 20 secondsShock : 50 G’s 11 ms, Pulse, 3 shocks per axisVibration : 10G’s Peak, 20 to 2000 HzCase : Dual-in-LineSeal : Resistance WeldSurface Mount Base : High Temperature FR-4MSL : 16/6 RoHS Compliance :This product is fully compliant to RoHS Directive 2002/95/ECPackage SpecificationsRecommended Land Patern (Surface Mount Pkg.)。

Jewel ® Workstation Continuous Mini Monitor DescriptionWorkstation Continuous Mini Monitor Figure 1. Desco 19218 Jewel ® Workstation Continuous Made in AmericaA broken wrist strap may expose products to ESD over an entire shift if it is checked only at shift changeESD MATPush and Clinch Snaps1-5/16"Figure 2. Installation of push and clinch snaps to worksurfaceNOTE: Install the monitor to the worksurface by aligning one snap at a time and applying a downward force directly above that snap.WorksurfaceMonitors worksurface connectionFigure 3. Installation of the monitor to the worksurface one snap at a timeThe following procedure will outline how to correctly wire Workstation Continuous Mini Monitor so as to properly monitor an ESD protected workstation.1. Confirm that the worksurface surface resistance is 5 x 10E8 Ohms or less and has a conductive layer.2. A convenient 120 VAC outlet should be located and tested for proper wiring and grounding. Werecommend the Desco 98130 AC Outlet Analyzer to verify proper wiring and ground.AC AdapterESD MATPark SnapFigure 4. Operating the Jewel® Workstation ContinuousHand Lotion. When leaving the area, a person can take the coil cord along or leave it attached to themonitor in park position.NOTE: Removing the banana plug from the monitor’s operator jack will disable the audio alarm.It is recommended that you use the Park Snap rather than continuously removing the Banana Plug from its jack. Doing so will increase the life span of the operator jack. If your process requires the constant insertion and removal of the banana plug, please contact your Desco Representative for alternate solutions.Specifications:Test range of monitored circuit:500K - 10M ohms†Worksurface Limit*:Set to 500 Megohms ± 20%Operating Voltage:24VAC, 50-60 HzWrist strap open circuit voltage:1.2 Volts peak to peak @ 1-2 MicroAmpsMat test open circuit voltage:5 - 7.5 VoltsResponse time to alarm:<50 mSOperating Temperature:32ºF - 100ºFHumidity Range:0-95% RH, non- c ondensingDimensions:2.77" L x 2.07" W x .71" H† This cannot be verified with standard DC test equipment. The continuous monitor is an impedance sensing device and the limits are determined by the magnitude and angle of the impedance.*Contact factory for special limits.NOTE: Worksurface must have a conductive layer such as Dual Layer Rubber or Dissipative 3-Layer Vinyl or Micastat® Dissipative Laminate with conductive buried layers. Desco continuous monitors are not recommended for use with homogeneous matting.Maintenance and CalibrationThe Jewel® Workstation Continuous Mini Monitor is solid state and designed to be maintenance free. It is calibrated to NIST traceable standards. There are no user adjustments necessary. Because of the wave distortion impedance sensing nature of the test circuit, special equipment is required for calibration. We recommend that calibration be performed annually using the Desco 98220 Continuous Monitor Calibration Unit. The Calibration Unit is a most important product which allows the customer to perform NIST traceable calibration on continuous monitors. The 98220 is designed to be used on the shop floor at the workstation, virtually eliminating downtime, verifying that the continuous monitor is operating within tolerances. The 98220 provides a simple and quick means to assure compliance verificaton Per ANSI/ESD S20.20 Table 3 per ESD TR53.Limited WarrantyDesco expressly warrants that for a period of one (1) year from the dateof purchase Desco Continuous Monitors will be free of defects in material(parts) and workmanship (labor). Within the warranty period, a creditfor purchase of replacement Desco Continuous Monitors, or, at Desco’soption, the Continuous Monitor will be repaired or replaced free of charge.If product credit is issued, the amount will be calculated by multiplying the unused portion of the expected one year life times the original unit purchase price. Call Customer Service at 909-627-8178 (Chino, CA) or 781-821-8370 (Canton, MA) for Return Material Authorization (RMA) and proper shipping instructions and address. Include a copy of your original packing slip,invoice, or other proof of date of purchase. Any unit under warranty should be shipped prepaid to the Desco factory. Warranty replacements will takeapproximately two weeks.If your unit is out of warranty, Desco will quote repair charges necessaryto bring your unit up to factory standards. Call Customer Service at 909-627-8178 (Chino, CA) or 781-821-8370 (Canton, MA) for a Return Material Authorization (RMA) and proper shipping instructions and address.Warranty ExclusionsTHE FOREGOING EXPRESS WARRANTY IS MADE IN LIEU OFALL OTHER PRODUCT WARRANTIES, EXPRESSED AND IMPLIED,INCLUDING MERCHANTABILITY AND FITNESS FOR A PARTICULARPURPOSE WHICH ARE SPECIFICALLY DISCLAIMED. The expresswarranty will not apply to defects or damage due to accidents, neglect,misuse, alterations, operator error, or failure to properly maintain, clean or repair products.Limit of LiabilityIn no event will Desco or any seller be responsible or liable for anyinjury, loss or damage, direct or consequent, arising out of the use of orthe inability to use the product. Before using, users shall determine thesuitability of the product for their intended use, and users assume all riskand liability whatsoever in connection therewith.分销商库存信息: DESCO19218。

元器件交易网MacroblockFeaturesz z z z z z z z 2 constant-current output channelsPreliminary DatasheetMBI1802All-Ways-OnTM High-Power LED DriverConstant output current invariant to load voltage change Maximum output constant current: 360 mA Thermal protection and report Output current adjustment Schmitt trigger input 5V supply voltage Package type: SOP8 with thermal pad Current Accuracy Between Channels < ±3% Between ICs < ±6% Conditions IOUT = 40mA ~ 360 mA @ VDS= 0.6VProduct DescriptionMBI1802 is an instant On/Off LED driver for high power LED applications and exploits PrecisionDrive™ and All-Ways-On™ technology to enhance its output characteristics. With All-Ways-On™, MBI1802 easily provides users with a consistent current source in their system design. Users may adjust the output current up to 360 mA through an external resistor, Rext, which gives users flexibility in controlling the light intensity of LEDs. Also, users can precisely adjust LED brightness from 0% to 100% via output control with Pulse Width Modulation. Alternatively, MBI1802 provides one-step current adjustment to make a quarter of the output current via enabling the QUAD pin as “High”. Additionally, to ensure the system reliability, MBI1802 is built with TP (Thermal Protection) function and thermal pad. The TP function can protect IC from over temperature (165°C) and the thermal pad can enhance the power dissipation. As a result, a large amount of current can be handled safely in one package.Applicationsz z High-Flux LED Lighting Automotive Interior LightingMacroblock, Inc. 2005 Floor 6-4, No.18, Pu-Ting Rd., Hsinchu, Taiwan 30077, ROC. TEL: +886-3-579-0068, FAX: +886-3-579-7534 E-mail: info@ -1January 2005, V1.00元器件交易网MBI1802Typical Application CircuitVDD VLEDAll-Ways-OnTM High-Power LED Driver1 GND Rext 2 R-EXT 3 QUAD 4 OUT0VDD 8 OE 7 ERR 6OUT1 5Figure 1Block DiagramQUADOUT0 OUT1R-EXTVDDIO RegulatorThermal Sensor2 switchesOEERR-2-January 2005, V1.00元器件交易网MBI1802Pin ConfigurationGND R-EXT QUAD OUT0 1 2 3 4Thermal PadAll-Ways-OnTM High-Power LED Driver8 7 6 5VDD OE ERR OUT1MBI1802Terminal DescriptionPin No. 1 Pin Name GND Function Ground terminal for control logic and current sink Terminal used to connect an external resistor(Rext) for setting up output current for all output channels Set all the output current to 25% of the pre-set current when QUAD is high.2R-EXT3 4, 5QUADOUT0 ~ OUT1 ERRConstant current output terminals Thermal error flag, when junction temperature is over 165°C, ERR is going to high.* Output enable terminal When OE (active) low, the output drivers are enabled; when OE high, all output drivers are turned OFF (blanked). 5V supply voltage terminal Power dissipation terminals with ground connection*67OE8 -VDD Thermal Pad*To eliminate the noise influence, the thermal pad should be connected to GND. In addition, desired thermal conductivity will be better if the conduction area on PCB connecting to the thermal pad is large enough.-3-January 2005, V1.00元器件交易网MBI1802Maximum RatingsCharacteristicAll-Ways-OnTM High-Power LED DriverSymbolRatingUnitSupply Voltage Input Voltage Output Current Output Voltage GND Terminal Current Power Dissipation* (On PCB, Ta=25°C) Thermal Resistance* (Under good thermal system) Thermal Resistance* (On PCB, Ta=25°C) Operating Temperature Storage Temperature SOP8VDD VIN IOUT VDS IGND PD0~7.0 -0.4~VDD + 0.4 360* -0.5~+17.0 720 0.8 33.39**V V mA V mA WRth(j-a) 125 Topr Tstg -40~+85 -55~+150°C/W°C °C*Users must notice that the power dissipation (almost equaling to IOUT x VDS) should be within the Safe Operation Area shown in Figure 6. ** Good thermal system design can ensure that the heat management of the total system (storage temperature and operating temperature) maintains MBI1802 within the defined temperature limits (Rth(j-a)= 33.39°C/W).-4-January 2005, V1.00元器件交易网MBI1802Electrical CharacteristicsCharacteristic SymbolAll-Ways-OnTM High-Power LED DriverConditionMin.Typ.Max.UnitSupply Voltage Output Voltage Output Current Input Voltage “H” level “L” levelVDD VDS IOUT VIH VIL IOH IOUT1 dIOUT1 IOUT2 dIOUT2 %/dVDS %/dVDD RIN(up) Tj IDD(off) 1 “OFF” IDD(off) 2 IDD(off) 3 “ON” IDD(on) 1 IDD(on) 2OUT0 ~ OUT1-4.5 40 0.7*VDD GND Rext= 720 Ω Rext= 720 Ω Rext= 1440 Ω Rext= 1440 Ω 250 Off Off Off On On -5.0 204 ±1 102 ±1 ±0.1 ±1 500 165 1.6 4.5 3.2 4.5 3.25.5 17.0 360 VDD 0.3*VDD 0.5 ±3 ±3 800 3.6 7.5 6.2 7.5 6.2V V mA V V µA mA % mA % %/V %/V KΩ °CDC Test Circuit Ta= -40~85ºC Ta= -40~85ºC VOH= 17.0V VDS= 0.6V IOL= 204mA VDS= 0.6V VDS= 0.5V IOL= 102mA VDS= 0.5VOutput Leakage Current Output Current 1 Current Skew Output Current 2 Current Skew Output Current vs. Output Voltage Regulation Output Current vs. Supply Voltage Regulation Pull-up Resistor Thermal Protection TemperatureVDS within 1.0V and 3.0V VDD within 4.5V and 5.5V OE Junction Temperature Rext=Open, Rext=720 Ω, Rext=1440 Ω, Rext=720 Ω, Rext=1440 Ω,OUT0 ~ OUT1 = OUT0 ~ OUT1 =Supply CurrentOUT0 ~ OUT1 =OUT0 ~ OUT1 =mAOUT0 ~ OUT1 =Test Circuit for Electrical CharacteristicsVDD IDD VDD Function GeneratorLogic input waveform VIH VILIOUT OUT0OE QUAD R-EXT IR-EXTOUT1 GND VDS CL VLFigure 2-5-January 2005, V1.00元器件交易网MBI1802Switching CharacteristicsCharacteristicAll-Ways-OnTM High-Power LED DriverSymbol Condition Min. Typ. Max. UnitPropagation Delay Time (“L” to “H”) Propagation Delay Time (“H” to “L”) Pulse WidthOE - OUTn OE - OUTnOEtpLH tpHL tw(OE) tor tofOutput Rise Time of Vout (turn off) Output Fall Time of Vout (turn on)VDD= 5.0 V VDS= 1-1.6V VIH= VDD VIL= GND Rext= 600 Ω VL= 4.0 V RL= 10 Ω CL= 10 pF1 1 10 1 12 2 1.7 1.73 3 3 3µs µs µs µs µsTest Circuit for Switching CharacteristicsVDD IDD VDD Function GeneratorLogic input waveform VIH VILIOUT OUT0OE QUAD R-EXT IR-EXTOUT1 GND CL V DSRLVLFigure 3-6-January 2005, V1.00元器件交易网MBI1802Application Information Constant CurrentAll-Ways-OnTM High-Power LED DriverIn LED lighting applications, MBI1802 provides nearly no variations in current from channel to channel and from IC to IC. This can be achieved by: 1) The maximum current variation between channels is less than ±3%, and that between ICs is less than ±6%. 2) In addition, the current characteristic of output stage is flat and users can refer to the figure as shown below. The output current can be kept constant regardless of the variations of LED forward voltages (VF). This performs as a perfection of load regulation.IOUT (mA) 400 350 300 250 200 150 100 50 00.0 0.2MBI1802 I OUT vs. VOUT for various RextRext= 2907 ohm Rext= 1455 ohm Rext= 984 ohm Rext= 732 ohm Rext= 586 ohm Rext= 491 ohm Rext= 422 ohm0.40.6VOUT (V)0.81.01.21.4Figure 4-7-January 2005, V1.00元器件交易网MBI1802Adjusting Output CurrentAll-Ways-OnTM High-Power LED DriverThe output current of each channel (IOUT) is set by an external resistor, Rext. The relationship between IOUT and Rext is shown in the following figure.MBI1802 IOUT vs. RextIOUT(mA) 400 350 300 250 200 150 100 50 0 0 500 100015002000250030003500Rext(ohm)Figure 5Also, the output current can be calculated from the equation: VR-EXT = 1.28V；Rext= (VR-EXT / IOUT) x 115= (1.28V / IOUT) x 115 where Rext is the resistance of the external resistor connected to R-EXT terminal and VR-EXT is the voltage of R-EXT terminal. The magnitude of current (as a function of Rext) is around 102 mA at 1440Ω and 204 mA at 720Ω.TP Function (Thermal Protection)When the junction temperature exceeds the limit (165°C), TP starts to function and turn off the output current and the thermal error flag, ERR, goes high simultaneously. As soon as the temperature is below 165°C, the output current will be on again. The switching runs at a high frequency, so the blinking is imperceptible. However, the DC output current is limited and thus the driver is protected from overheat.-8-January 2005, V1.00元器件交易网MBI1802All-Ways-OnTM High-Power LED DriverPackage Power Dissipation (PD)The maximum power dissipation, PD(max) = (Tj – Ta) / Rth(j-a), decreases as the ambient temperature increases.Max. Power Dissipation at Various Ambient Temperature 0.9 0.8 Power Dissipation (W) 0.7 0.6 0.5 0.4 0.3 0.2 0.1 0 0 25 50 Ambient Temperature (°C)Figure 6 The maximum allowable package power dissipation is determined as PD(max) = (Tj – Ta) / Rth(j-a). When 2 output channels are turned on simultaneously, the actual package power dissipation is PD(act) = (IDD x VDD) + (IOUT x Duty x VDS x 2). Therefore, to keep PD(act) ≤ PD(max), the allowable maximum output current as a function of duty cycle is: IOUT = { [ (Tj – Ta) / Rth(j-a) ] – (IDD x VDD) } / VDS / Duty / 2, where Tj = 125°C; Duty= tON / T; tON: the time of LEDs turning on; T: OE signal periodtONSOP-8(CD) Type: Rth(j-a)= 125(°C/W)*Safe Operation Area75100OET*Note1: The thermal resistor Rth(j-a) =125 °C/W is based on the following structure.Copper foilThe PCB area L2xW2 is 4 times to the IC’s area L1xW1.L2 L1The thickness of the PCB is 1.6mm, copper foil 1 Oz. The thermal pad on theW1 W2IC’s bottom has to be mounted on the copper foil.-9-January 2005, V1.00元器件交易网MBI1802Load Supply Voltage (VLED)All-Ways-OnTM High-Power LED DriverMBI1802 are designed to operate with VDS ranging from 0.4V to 1.0V considering the package power dissipating limits. VDS may be higher enough to make PD(act) > PD(max) when VLED = 5V and VDS = VLED – VF, in which VLED is the load supply voltage. In this case, it is recommended to use the lowest possible supply voltage or to set an external voltage reducer, VDROP. A voltage reducer lets VDS = (VLED –VF) – VDROP. Resistors or Zener diode can be used in the applications as shown in the following figures.Voltage SupplyVoltage SupplyVLED VFVDrop VDSVDrop VLED VF VDSMBI1802MBI1802- 10 -January 2005, V1.00TM January 2005, V1.00 - 11 -元器件交易网。

Extract from the online catalogThe illustration shows a 16-position version Plug component, nominal current: 8 A, rated voltage: 160 V, pitch: 3.81 mm, no. of positions: 3, type of connection: Screw connectionOrder No.1803581Ord designation MC 1,5/ 3-ST-3,81 Catalog page information Page 82 (CC-2005) Technical dataTightening torque, min 0.22 NmTechnical dataInsulating material group IRated surge voltage (III/3) 2.5 kVRated surge voltage (III/2) 2.5 kVRated surge voltage (II/2) 2.5 kVRated voltage (III/2) 160 VRated voltage (II/2) 320 VConnection in acc. with standard EN-VDE8 ANominal current IN160 VNominal voltage UNNominal cross section 1.5 mm²Maximum load current 8 A (with 1.5 mm² conductor cross section) Insulating material PAInflammability class acc. to UL 94 V0Internal cylindrical gage A1Stripping length 7 mmConnection dataConductor cross section, rigid min. 0.14 mm²Conductor cross section, rigid max. 1.5 mm²Conductor cross section flexible min. 0.14 mm²Conductor cross section, flexible max. 1.5 mm²0.25 mm²Conductor cross section flexible, with ferrule withoutplastic sleeve min.Conductor cross section flexible, with ferrule without1.5 mm²plastic sleeve max.0.25 mm²Conductor cross section flexible, with ferrule with plasticsleeve min.0.5 mm²Conductor cross section flexible, with ferrule with plasticsleeve max.Conductor cross section AWG/kcmil min. 28Conductor cross section AWG/kcmil max 162 conductors with same cross section, solid min. 0.08 mm²2 conductors with same cross section, solid max. 0.5 mm²2 conductors with same cross section, flexible, min. 0.08 mm²2 conductors with same cross section, flexible max. 0.75 mm²0.25 mm²2 conductors with same cross section, flexible, ferruleswithout plastic sleeve min.0.34 mm²2 conductors with same cross section, flexible, ferruleswithout plastic sleeve, max.2 conductors with same cross section, flexible, TWIN0.5 mm²ferrules with plastic sleeve, min.2 conductors with identical cross section, flexible TWIN0.5 mm²ferrules with plastic sleeve, max.CertificatesCSA300 V Nominal voltage UNNominal current I8 ANAWG/kcmil 28-16 CULNominal voltage U300 VN8 A Nominal current INAWG/kcmil 30-14250 V Nominal voltage UNNominal current I8 ANAWG/kcmil 30-14 ULNominal voltage U300 VN8 A Nominal current INAWG/kcmil 30-14250 V Nominal voltage UN8 A Nominal current INAWG/kcmil 30-14Drawings Dimensioned drawingApproval logoAccessoriesItem Designation DescriptionGeneral1834356KGG-MC 1,5/ 3Cable housing, for cable diameters of up to 8.5 mm, cable tiesand marker strips are included, color: green, no. of positions: 3Marking0804109SK 3,81/2,8:FORTL.ZAHLEN Marker card, printed horizontally, self-adhesive, 10-sectionmarker strip, 14 identical decades marked 1-10, 11-20 etc. up to91-(99)100, sufficient for 140 terminal blocksTools1205037SZS 0,4X2,5Screwdriver, bladed, matches all screw terminal blocks up to 1.5mm² connection cross section, blade: 0.4 x 2.5 mmAdditional productsItem Designation DescriptionGeneral1897814EMC 1,5/ 3-G-3,81Header, nominal current: 8 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: Press in1860650EMCV 1,5/ 3-G-3,81Header, nominal current: 8 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: Press in1857896IMC 1,5/ 3-ST-3,81Plug component, nominal current: 8 A, rated voltage: 160 V,pitch: 3.81 mm, no. of positions: 3, type of connection: Screwconnection1803280MC 1,5/ 3-G-3,81Header, nominal current: 8 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: Soldering1908774MC 1,5/ 3-G-3,81 THT Header, nominal current: 8 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: SMD/THT1829963MCD 1,5/ 3-G-3,81Header, nominal current: 7 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: Soldering1843088MCD 1,5/ 3-G1-3,81Header, nominal current: 7 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: Soldering1830415MCDV 1,5/ 3-G-3,81Header, nominal current: 7 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: Soldering1847738MCDV 1,5/ 3-G1-3,81Header, nominal current: 7 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: Soldering1861730MCO 1,5/ 3-GL-3,81Header, nominal current: 8 A, rated voltage: 125 V, pitch: 3.81mm, no. of positions: 3, mounting: Soldering1861659MCO 1,5/ 3-GR-3,81Header, nominal current: 8 A, rated voltage: 125 V, pitch: 3.81mm, no. of positions: 3, mounting: Soldering1803439MCV 1,5/ 3-G-3,81Header, nominal current: 8 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: Soldering1908923MCV 1,5/ 3-G-3,81 THT Header, nominal current: 8 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: SMD/THT1832701MCVDU 1,5/ 3-G-3,81Header, nominal current: 8 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: Soldering1832743MCVK 1,5/ 3-G-3,81Header, nominal current: 8 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: Mounting rail1827282SMC 1,5/ 3-G-3,81Header, nominal current: 8 A, rated voltage: 160 V, pitch: 3.81mm, no. of positions: 3, mounting: SolderingAddressPHOENIX CONTACT GmbH & Co. KG Flachsmarktstr. 832825 BlombergGermanyPhone +49 5235 3 00Fax +49 5235 3 41200 Phoenix ContactTechnical modifications reserved;。

LMD182013A,55V H-BridgeGeneral DescriptionThe LMD18201is a 3A H-Bridge designed for motion control applications.The device is built using a multi-technology pro-cess which combines bipolar and CMOS control circuitry with DMOS power devices on the same monolithic structure.The H-Bridge configuration is ideal for driving DC and step-per motors.The LMD18201accommodates peak output cur-rents up to 6A.Current sensing can be achieved via a small sense resistor connected in series with the power ground lead.For current sensing without disturbing the path of cur-rent to the load,the LMD18200is recommended.Featuresn Delivers up to 3A continuous output n Operates at supply voltages up to 55V n Low R DS(ON)typically 0.33Ωper switchn TTL and CMOS compatible inputs n No “shoot-through”currentn Thermal warning flag output at 145˚C n Thermal shutdown (outputs off)at 170˚C n Internal clamp diodes n Shorted load protectionnInternal charge pump with external bootstrap capabilityApplicationsn DC and stepper motor drivesn Position and velocity servomechanisms n Factory automation robotsn Numerically controlled machinery nComputer printers and plottersFunctional DiagramDS010793-1FIGURE 1.Functional Block Diagram of LMD18201April 1998LMD182013A,55V H-Bridge©1999National Semiconductor Corporation Connection Diagram and Ordering InformationDS010793-2Top ViewOrder Number LMD18201TSee NS Package Number TA11B2Absolute Maximum Ratings(Note1)If Military/Aerospace specified devices are required, please contact the National Semiconductor Sales Office/ Distributors for availability and specifications.Total Supply Voltage(V S,Pin6)60V Voltage at Pins3,4,5and912V Voltage at Bootstrap Pins(Pins1and11)V OUT+16V Peak Output Current(200ms)6A Continuous Output Current(Note2)3A Power Dissipation(Note3)25W Sense Voltage(Pin7to Pin8)+0.5V to−1.0V Power Dissipation(T A=25˚C,Free Air)3W Junction Temperature,T J(max)150˚C ESD Susceptibility(Note4)1500V Storage Temperature,T STG−40˚C to+150˚C Lead Temperature(Soldering,10sec.)300˚COperating Ratings(Note1)Junction Temperature,T J−40˚C to+125˚C V S Supply Voltage+12V to+55VElectrical Characteristics(Note5)The following specifications apply for V S=42V,unless otherwise specified.Boldface limits apply over the entire operating temperature range,−40˚C≤T J≤+125˚C,all other limits are for T A=T J=25˚C.Symbol Parameter Conditions Typ Limit UnitsR DS(ON)Switch ON Resistance Output Current=3A(Note6)0.330.4/0.6Ω(max)R DS(ON)Switch ON Resistance Output Current=6A(Note6)0.330.4/0.6Ω(max)V CLAMP Clamp Diode Forward Drop Clamp Current=3A(Note6) 1.2 1.5V(max)V IL Logic Low Input Voltage Pins3,4,5−0.1V(min)0.8V(max)I IL Logic Low Input Current V IN=−0.1V,Pins=3,4,5−10µA(max)V IH Logic High Input Voltage Pins3,4,52V(min)12V(max)I IL Logic High Input Current V IN=12V,Pins=3,4,510µA(max)Undervoltage Lockout Outputs Turn OFF9V(min)11V(max)T JW Warning Flag Temperature Pin9≤0.8V,I L=2mA145˚CV F(ON)Flag Output Saturation Voltage T J=T JW,I L=2mA0.15VI F(OFF)Flag Output Leakage V F=12V0.210µA(max)T JSD Shutdown Temperature Outputs Turn OFF170˚CI S Quiescent Supply Current All Logic Inputs Low1325mA(max)t D(ON)Output Turn-On Delay Time Sourcing Outputs,I OUT=3A300nsSinking Outputs,I OUT=3A300nst ON Output Turn-On Switching Time Bootstrap Capacitor=10nFSourcing Outputs,I OUT=3A100nsSinking Outputs,I OUT=3A80nst D(OFF)Output Turn-Off Delay Times Sourcing Outputs,I OUT=3A200nsSinking Outputs,I OUT=3A200nst OFF Output Turn-Off Switching Times Bootstrap Capacitor=10nFSourcing Outputs,I OUT=3A75nsSinking Outputs,I OUT=3A70nst PW Minimum Input Pulse Width Pins3,4and51µst CPR Charge Pump Rise Time No Bootstrap Capacitor20µsNote1:Absolute Maximum Ratings indicate limits beyond which damage to the device may occur.DC and AC electrical specifications do not apply when operatingthe device beyond its rated operating conditions.Note2:See Application Information for details regarding current limiting.Note3:The maximum power dissipation must be derated at elevated temperatures and is a function of T J(max),θJA,and T A.The maximum allowable power dissi-pation at any temperature is P D(max)=(T J(max)−T A)/θJA,or the number given in the Absolute Ratings,whichever is lower.The typical thermal resistance from junctionto case(θJC)is1.0˚C/W and from junction to ambient(θJA)is30˚C/W.For guaranteed operation T J(max)=125˚C.Note4:Human-body model,100pF discharged through a1.5kΩresistor.Except Bootstrap pins(pins1and11)which are protected to1000V of ESD.Note5:All limits are100%production tested at25˚C.Temperature extreme limits are guaranteed via correlation using accepted SQC(Statistical Quality Control) methods.All limits are used to calculate AOQL,(Average Outgoing Quality Level).Note6:Output currents are pulsed(t W<2ms,Duty Cycle<5%).3Typical Performance CharacteristicsTest Circuit Switching Time DefinitionsV SAT vs Flag CurrentDS010793-12R DS(ON)vs TemperatureDS010793-13R DS(ON)vsSupply VoltageDS010793-14Supply Current vs Supply VoltageDS010793-15Supply Current vs Frequency (V S =42V)DS010793-16Supply Current vsTemperature (V S =42V)DS010793-17DS010793-8DS010793-9 4Pinout Description(See Connection Diagram)Pin1,BOOTSTRAP1Input:Bootstrap capacitor pin for half H-Bridge number1.The recommended capacitor(10nF)is connected between pins1and2.Pin2,OUTPUT1:Half H-Bridge number1output.Pin3,DIRECTION Input:See Table1.This input controls the direction of current flow between OUTPUT1and OUT-PUT2(pins2and10)and,therefore,the direction of rotation of a motor load.Pin4,BRAKE Input:See Table1.This input is used to brake a motor by effectively shorting its terminals.When braking is desired,this input is taken to a logic high level and it is also necessary to apply logic high to PWM input,pin5. The drivers that short the motor are determined by the logic level at the DIRECTION input(Pin3):with Pin3logic high, both current sourcing output transistors are ON;with Pin3 logic low,both current sinking output transistors are ON.All output transistors can be turned OFF by applying a logic high to Pin4and a logic low to PWM input Pin5;in this case only a small bias current(approximately−1.5mA)exists at each output pin.Pin5,PWM Input:See Table1.How this input(and DIREC-TION input,Pin3)is used is determined by the format of the PWM Signal.Pin6,V S Power SupplyPin7,POWER GROUND/SENSE Connection:This pin is the ground return for the power DMOS transistors of the H-Bridge.The current through the H-Bridge can be sensed by adding a small,0.1Ω,sense resistor from this pin to the power supply ground.Pin8,SIGNAL GROUND:This is the ground return for the internal logic circuitry used to control the PWM switching of the H-Bridge.Pin9,THERMAL FLAG Output:This pin provides the ther-mal warning flag output signal.Pin9becomes active-low at 145˚C(junction temperature).However the chip will not shut itself down until170˚C is reached at the junction.Pin10,OUTPUT2:Half H-Bridge number2output.Pin11,BOOTSTRAP2Input:Bootstrap capacitor pin for half H-Bridge number 2.The recommended capacitor (10nF)is connected between pins10and11.TABLE1.Logic Truth TablePWM Dir Brake Active Output DriversH H L Source1,Sink2H L L Sink1,Source2L X L Source1,Source2H H H Source1,Source2H L H Sink1,Sink2L X H NONEApplication InformationTYPES OF PWM SIGNALSThe LMD18201readily interfaces with different forms of PWM e of the part with two of the more popular forms of PWM is described in the following paragraphs. Simple,locked anti-phase PWM consists of a single,vari-able duty-cycle signal in which is encoded both direction andamplitude information(see Figure2).A50%duty-cyclePWM signal represents zero drive,since the net value ofvoltage(integrated over one period)delivered to the load iszero.For the LMD18201,the PWM signal drives the direc-tion input(pin3)and the PWM input(pin5)is tied to logichigh.Sign/magnitude PWM consists of separate direction(sign)and amplitude(magnitude)signals(see Figure3).The(ab-solute)magnitude signal is duty-cycle modulated,and theabsence of a pulse signal(a continuous logic low level)rep-resents zero drive.Current delivered to the load is propor-tional to pulse width.For the LMD18201,the DIRECTION in-put(pin3)is driven by the sign signal and the PWM input(pin5)is driven by the magnitude signal.USING THE THERMAL WARNING FLAGThe THERMAL FLAG output(pin9)is an open collector tran-sistor.This permits a wired OR connection of thermal warn-ing flag outputs from multiple LMD18201’s,and allows theuser to set the logic high level of the output signal swing tomatch system requirements.This output typically drives theinterrupt input of a system controller.The interrupt serviceroutine would then be designed to take appropriate steps,such as reducing load currents or initiating an orderly systemshutdown.The maximum voltage compliance on the flag pinis12V.SUPPLY BYPASSINGDuring switching transitions the levels of fast currentchanges experienced may cause troublesome voltage tran-sients across system stray inductances.It is normally necessary to bypass the supply rail with a highquality capacitor(s)connected as close as possible to the V SPower Supply(Pin6)and POWER GROUND(Pin7).A1µFhigh-frequency ceramic capacitor is recommended.Careshould be taken to limit the transients on the supply pin be-low the Absolute Maximum Rating of the device.When oper-ating the chip at supply voltages above40V a voltage sup-pressor(transorb)such as P6KE62A is recommended fromDS010793-4FIGURE2.Locked Anti-Phase PWM ControlDS010793-5 FIGURE3.Sign/Magnitude PWM Control 5Application Information(Continued) supply to ground.Typically the ceramic capacitor can be eliminated in the presence of the voltage suppressor.Note that when driving high load currents a greater amount of sup-ply bypass capacitance(in general at least100µF per Amp of load current)is required to absorb the recirculating cur-rents of the inductive loads.CURRENT LIMITINGCurrent limiting protection circuitry has been incorporated into the design of the LMD18201.With any power device it is important to consider the effects of the substantial surge cur-rents through the device that may occur as a result of shorted loads.The protection circuitry monitors the current through the upper transistors and shuts off the power device as quickly as possible in the event of an overload condition (the threshold is set to approximately10A).In a typical motor driving application the most common overload faults arecaused by shorted motor windings and locked rotors.Underthese conditions the inductance of the motor(as well as anyseries inductance in the V CC supply line)serves to reducethe magnitude of a current surge to a safe level for theLMD18201.Once the device is shut down,the control cir-cuitry will periodically try to turn the power device back on.This feature allows the immediate return to normal operationonce the fault condition has been removed.While the faultremains however,the device will cycle in and out of thermalshutdown.This can create voltage transients on the V CCsupply line and therefore proper supply bypassing tech-niques are required.The most severe condition for any power device is a direct,hard-wired(“screwdriver”)long term short from an output toground.This condition can generate a surge of currentthrough the power device on the order of15Amps and re-quire the die and package to dissipate up to500W of powerfor the short time required for the protection circuitry to shutoff the power device.This energy can be destructive,particu-larly at higher operating voltages(>30V)so some precau-tions are in order.Proper heat sink design is essential and itis normally necessary to heat sink the V CC supply pin(pin6)with1square inch of copper on the PC board. INTERNAL CHARGE PUMP AND USE OF BOOTSTRAP CAPACITORSTo turn on the high-side(sourcing)DMOS power devices,the gate of each device must be driven approximately8Vmore positive than the supply voltage.To achieve this an in-ternal charge pump is used to provide the gate drive voltage.As shown in(Figure4),an internal capacitor is alternately switched to ground and charged to about14V,then switched to V S thereby providing a gate drive voltage greater than V S. This switching action is controlled by a continuously running internal300kHz oscillator.The rise time of this drive voltage is typically20µs which is suitable for operating frequencies up to1kHz.For higher switching frequencies,the LMD18201provides for the use of external bootstrap capacitors.The bootstrap principle is in essence a second charge pump whereby a large value capacitor is used which has enough energy to quickly charge the parasitic gate input capacitance of the power device resulting in much faster rise times.The switch-ing action is accomplished by the power switches them-selves(Figure5).External10nF capacitors,connected from the outputs to the bootstrap pins of each high-side switch provide typically less than100ns rise times allowing switch-ing frequencies up to500kHz.INTERNAL PROTECTION DIODESA major consideration when switching current through induc-tive loads is protection of the switching power devices from the large voltage transients that occur.Each of the four switches in the LMD18201have a built-in protection diode to clamp transient voltages exceeding the positive supply or ground to a safe diode voltage drop across the switch. The reverse recovery characteristics of these diodes,once the transient has subsided,is important.These diodes must come out of conduction quickly and the power switches must be able to conduct the additional reverse recovery current of the diodes.The reverse recovery time of the diodes protect-ing the sourcing power devices is typically only70ns with a reverse recovery current of1A when tested with a full3A of forward current through the diode.For the sinking devices the recovery time is typically100ns with4A of reverse cur-rent under the same conditions.DS010793-6FIGURE4.Internal Charge Pump CircuitryDS010793-7FIGURE5.Bootstrap Circuitry6Typical ApplicationsBASIC MOTOR DRIVERThe LMD18201can directly interface to any Sign/Magnitude PWM controller.The LM629is a motion control processor that outputs a Sign/Magnitude PWM signal to coordinate ei-ther positional or velocity control of DC motors.The LMD18201provides fully protected motor driver stage.CURRENT SENSINGIn many motor control applications it is desirable to sense and control the current through the motor.For these types of applications a companion product,the LMD18200,is also available.The LMD18200is identical to the LMD18201but has current sensing transistors that output a current directly proportional to the current conducted by the two upper DMOS power devices to a separate current sense pin.This technique does not require a low valued,power sense resis-tor and does not subtract from the available voltage drive to the motor.To sense the bridge current through the LMD18201requires the addition of a small sense resistor between the power ground/sense pin (Pin 7)and the actual circuit ground (see Figure 7).This resistor should have a value of 0.1Ωor less tostay within the allowable voltage compliance of the sense pin,particularly at higher operating current levels.The volt-age between power ground/sense (Pin 7)and the signal ground (Pin 8)must stay within the range of −1V to +0.5V.In-ternally there is approximately 25Ωbetween pins 7and 8and this resistance will slightly reduce the value of the exter-nal sense resistor.Approximately 70%of the quiescent sup-ply current (10mA)flows out of pin 7.This will cause a slight offset to the voltage across the sense resistor when the bridge is not conducting.During reverse recovery of the in-ternal protection diodes the voltage compliance between pins 7and 8may be exceeded.The duration of these spikes however are only approximately 100ns and do not have enough time or energy to disrupt the operation of the LMD18201.DS010793-10FIGURE 6.Basic Motor DriverDS010793-11FIGURE 7.Current Sensing7Physical Dimensionsinches (millimeters)unless otherwise notedLIFE SUPPORT POLICYNATIONAL’S PRODUCTS ARE NOT AUTHORIZED FOR USE AS CRITICAL COMPONENTS IN LIFE SUPPORT DEVICES OR SYSTEMS WITHOUT THE EXPRESS WRITTEN APPROVAL OF THE PRESIDENT AND GENERAL COUNSEL OF NATIONAL SEMICONDUCTOR CORPORATION.As used herein:1.Life support devices or systems are devices or systems which,(a)are intended for surgical implant into the body,or (b)support or sustain life,and whose failure to perform when properly used in accordance with instructions for use provided in the labeling,can be reasonably expected to result in a significant injury to the user.2.A critical component is any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system,or to affect its safety or effectiveness.National Semiconductor Corporation AmericasTel:1-800-272-9959Fax:1-800-737-7018Email:support@National Semiconductor EuropeFax:+49(0)180-5308586Email:europe.support@Deutsch Tel:+49(0)180-5308585English Tel:+49(0)180-5327832Français Tel:+49(0)180-5329358Italiano Tel:+49(0)180-5341680National Semiconductor Asia Pacific Customer Response Group Tel:65-2544466Fax:65-2504466Email:sea.support@National Semiconductor Japan Ltd.Tel:81-3-5639-7560Fax:81-3-5639-750711-Lead TO-220Power Package (T)Order Number LMD18201T NS Package Number TA11BL M D 182013A ,55V H -B r i d g eNational does not assume any responsibility for use of any circuitry described,no circuit patent licenses are implied and National reserves the right at any time without notice to change said circuitry and specifications.。

1-1825108-2 Product DetailsHome | Customer Support | Suppliers | Site Map | Privacy Policy | Browser Support© 2008 Tyco Electronics Corporation All Rights Reserved SearchProducts Documentation Resources My Account Customer Support Home > Products > By Type > Socket/Card Products > Product Feature Selector > Product Details1-1825108-2Active DIP SocketsAlways EU RoHS/ELV Compliant (Statement of Compliance)Product Highlights:?DIP Socket?Number of Positions = 28?Row-to-Row Spacing = 15.49 mm?Thru Hole?Mount Style = VerticalView all Features | Find SimilarProductsCheck Pricing &AvailabilitySearch for ToolingProduct FeatureSelectorContact Us AboutThis ProductQuick LinksDocumentation & Additional InformationProduct Drawings:?None AvailableCatalog Pages/Data Sheets:?None AvailableProduct Specifications:?None AvailableApplication Specifications:?DIPLOMATE DL (Dual Leaf) DIP Sockets(PDF, English)Instruction Sheets:?None AvailableCAD Files:?None AvailableList all Documents Additional Information:?Product Line InformationRelated Products:?ToolingProduct Features (Please use the Product Drawing for all design activity)Product Type Features:?Product Type = DIP Socket?Number of Positions = 28?Profile = Standard?Frame Style = Closed?Leg Style = Straight?Proprietary Name = DIPLOMATE DL?Color = Black?Comment = ONLY sockets with straight soldertails are recommended for automatic insertion. Electrical Characteristics:?Insulation Resistance (M?) = 10,000?Contact Resistance (m?) = 30Termination Related Features:?Termination (Solder) Post Length (mm [in]) =3.25 [0.128]?Solder Tail Contact Plating = TinBody Related Features:?Row-to-Row Spacing (mm [in]) = 15.49 [0.610] ?Mount Style = Vertical?Centerline (mm [in]) = 2.54 [0.100]Contact Related Features:?Contact Mount = Thru Hole?Contact Material = Beryllium Copper?Contact Mating Area Plating Material = Gold(30)?Contact Style = Stamped + Formed?Mating Contact Type = Dual Leaf Housing Related Features:?Housing Material = Thermoplastic GlassReinforced?Housing Flammability Rating = UL 94V-0 Configuration Related Features:?Height Above PC Board (mm [in]) = 5.33[0.210]Industry Standards:?RoHS/ELV Compliance = RoHS compliant, ELVcompliant?Lead Free Solder Processes = Wave soldercapable to 240°C, Wave solder capable to 260°C, Wave solder capable to 265°C?RoHS/ELV Compliance History = Always wasRoHS compliantConditions for Usage:?Temperature Range (°C) = 125Operation/Application:?Application = ProductionPackaging Related Features:?Packaging Method = TubeOther:?Brand = Tyco ElectronicsProvide Website Feedback | Contact Customer Support。

Extract from the onlinecatalogCCV 2,5/ 8-G-5,08 P26THRR56Order No.: 1955581http://eshop.phoenixcontact.de/phoenix/treeViewClick.do?UID=1955581Taped headers, pin length: 2.6 mm, tape width: 56 mm, 5.08 mm pitch, 8-pos.http://Please note that the data givenhere has been taken from theonline catalog. For comprehensiveinformation and data, please referto the user documentation. TheGeneral Terms and Conditions ofUse apply to Internet downloads. Technical dataDimensions / positionsPitch 5.08 mmDimension a35.56 mmNumber of positions8Pin dimensions 1 x 1 mmPin spacing 5.08 mmHole diameter 1.6 mmTechnical dataInsulating material group IIIaRated surge voltage (III/3) 4 kVRated surge voltage (III/2) 4 kVRated surge voltage (II/2) 4 kVRated voltage (III/2)320 VRated voltage (II/2)400 VConnection in acc. with standard EN-VDENominal current I N12 ANominal voltage U N250 VMaximum load current12 A (per position)Insulating material LCPInflammability class acc. to UL 94V0Certificates / ApprovalsApproval logoCULNominal voltage U N300 VNominal current I N10 AULNominal voltage U N300 VNominal current I N10 ACertification CUL, ULAccessoriesItem Designation DescriptionGeneral1954362CR-MSTB NAT HT HT coding section, is pushed into the recess on the header beforethe reflow process, made of highly temperature-resistant, beigeinsulating materialMarking1051993B-STIFT Marker pen, for manual labeling of unprinted Zack strips, smear-proof and waterproof, line thickness 0.5 mm0804303SK 5,08/3,8: 0-9Marker card, printed horizontally, self-adhesive, 10-section markerstrip, 12 identical decades marked 0-9, sufficient for 120 terminalblocks0804293SK 5,08/3,8:FORTL.ZAHLEN Marker card, printed horizontally, self-adhesive, 12 identicaldecades marked 1-10, 11-20 etc. up to 91-(99)100, sufficient for120 terminal blocks0805085SK 5,08/3,8:SO Marker card, special printing, self-adhesive, labeled acc. tocustomer requirements, 12 identical marker strips per card, max.25-position labeling per strip, color: white0805412SK 5,08/3,8:UNBEDRUCKT Marker cards, unprinted, with pitch divisions, self-adhesive, 10-section marker strips, 12 strips per card, can be labeled with theM-PENPlug/Adapter1734401CR-MSTB Coding section, inserted into the recess in the header or theinverted plug, red insulating materialDrawingsApplication drawingDrilling diagramDimensioned drawingBottom view, free space for solder paste, 0.55mm deepDirection of the arrow = feeding directionAddressPHOENIX CONTACT GmbH & Co. KGFlachsmarktstr. 832825 Blomberg,GermanyPhone +49 5235 3 00Fax +49 5235 3 41200http://www.phoenixcontact.de© 2008 Phoenix ContactTechnical modifications reserved;。

Extract from the onlinecatalogMSTBT 2,5/ 7-STF-5,08Order No.: 1805356The figure shows a 10-position version of the producthttp://eshop.phoenixcontact.de/phoenix/treeViewClick.do?UID=1805356Plug with T-shape and screw flange, nominal current: 12 A, rated voltage: 250 V, pitch: 5.08 mm, no. of positions: 7, type of connection: Screw connectionhttp://Please note that the data givenhere has been taken from theonline catalog. For comprehensiveinformation and data, please referto the user documentation. TheGeneral Terms and Conditions ofUse apply to Internet downloads. Technical dataDimensions / positionsPitch 5.08 mmDimension a30.48 mmNumber of positions7Screw thread M 3Tightening torque, min0.5 NmTechnical dataInsulating material group IRated surge voltage (III/3) 4 kVRated surge voltage (III/2) 4 kVRated surge voltage (II/2) 4 kVRated voltage (III/2)320 VRated voltage (II/2)630 VConnection in acc. with standard EN-VDENominal current I N12 ANominal voltage U N250 VNominal cross section 2.5 mm2Maximum load current12 A (with 2.5 mm2 conductor cross section) Insulating material PAInflammability class acc. to UL 94V0Internal cylindrical gage A3Stripping length7 mmConnection dataConductor cross section solid min.0.2 mm2Conductor cross section solid max. 2.5 mm2Conductor cross section stranded min.0.2 mm2Conductor cross section stranded max. 2.5 mm2Conductor cross section stranded, with ferrule0.25 mm2without plastic sleeve min.Conductor cross section stranded, with ferrule2.5 mm2without plastic sleeve max.Conductor cross section stranded, with ferrule0.25 mm2with plastic sleeve min.Conductor cross section stranded, with ferrule1.5 mm2with plastic sleeve max.Conductor cross section AWG/kcmil min.24Conductor cross section AWG/kcmil max122 conductors with same cross section, solid min.0.2 mm22 conductors with same cross section, solid max. 1 mm22 conductors with same cross section, stranded0.2 mm2min.2 conductors with same cross section, stranded1.5 mm2max.2 conductors with same cross section, stranded,0.25 mm2ferrules without plastic sleeve, min.2 conductors with same cross section, stranded,1 mm2ferrules without plastic sleeve, max.2 conductors with same cross section, stranded,0.5 mm2TWIN ferrules with plastic sleeve, min.2 conductors with same cross section, stranded,1.5 mm2TWIN ferrules with plastic sleeve, max.Certificates / ApprovalsApproval logoCSANominal voltage U N300 VNominal current I N10 AAWG/kcmil28-12CULNominal voltage U N300 VNominal current I N10 AAWG/kcmil30-12ULNominal voltage U N300 VNominal current I N10 AAWG/kcmil30-12Certification CB, CSA, CUL, GOST, UL, VDE-PZIAccessoriesItem Designation DescriptionGeneral1733169EBP 2- 5Insertion bridge, fully insulated, for plug connectors with 5.0 or5.08 mm pitch, no. of positions: 2Marking0804293SK 5,08/3,8:FORTL.ZAHLEN Marker card, printed horizontally, self-adhesive, 12 identicaldecades marked 1-10, 11-20 etc. up to 91-(99)100, sufficient for120 terminal blocksPlug/Adapter1734634CP-MSTB Coding profile, is inserted into the slot on the plug or invertedheader, red insulating materialTools1205053SZS 0,6X3,5Screwdriver, bladed, matches all screw terminal blocks up to 4.0mm² connection cross section, blade: 0.6 x 3.5 mm, without VDEapprovalAdditional productsItem Designation DescriptionGeneral1899032DFK-MSTBA 2,5/ 7-GF-5,08Header, nominal current: 12 A, rated voltage: 250 V, pitch: 5.08mm, no. of positions: 7, mounting: Soldering1899333DFK-MSTBVA 2,5/ 7-GF-5,08Header, nominal current: 12 A, rated voltage: 250 V, pitch: 5.08mm, no. of positions: 7, mounting: Soldering1899663EMSTB 2,5/ 7-GF-5,08Header, nominal current: 12 A, rated voltage: 250 V, pitch: 5.08mm, no. of positions: 7, mounting: Press in1915262EMSTBV 2,5/ 7-GF-5,08Header, nominal current: 12 A, rated voltage: 200 V, pitch: 5.08mm, no. of positions: 7, mounting: Press in1825556IC 2,5/ 7-STGF-5,08Plug component, nominal current: 12 A, rated voltage: 250 V,pitch: 5.08 mm, no. of positions: 7, type of connection: Screwconnection1823668ICC 2,5/ 7-STZFD-5,08Plug component, nominal current: 12 A, rated voltage: 250 V,pitch: 5.08 mm, no. of positions: 7, type of connection: Crimpconnection1842416MDSTB 2,5/ 7-GF-5,08Header, nominal current: 10 A, rated voltage: 250 V, pitch: 5.08mm, no. of positions: 7, mounting: Soldering1845688MDSTBV 2,5/ 7-GF-5,08Header, nominal current: 10 A, rated voltage: 250 V, pitch: 5.08mm, no. of positions: 7, mounting: Soldering1776553MSTB 2,5/ 7-GF-5,08Header, nominal current: 12 A, rated voltage: 250 V, pitch: 5.08mm, no. of positions: 7, mounting: Soldering2770888UKK 3-MSTB-5,08Modular terminal blocks with 2 horizontal plug entries, crosssection: 0.2 - 2.5 mm, AWG: 30 - 12, width: 5.1 mm, color: gray 1876615UKK 3-MSTB-5,08-PE Ground terminal block, with 2 horizontal plug entries, nominalcurrent: 12 A, rated voltage: 320 V, pitch: 5.08 mm, no. ofpositions: 1, mounting: mounting rail.1873016ZFKK 1,5-MSTBV-5,08Modular terminal blocks with plug entry, cross section: 0.2 - 1.5mm², width: 5.1 mm, color: grayDrawingsDimensioned drawingAddressPHOENIX CONTACT GmbH & Co. KGFlachsmarktstr. 832825 Blomberg,GermanyPhone +49 5235 3 00Fax +49 5235 3 41200http://www.phoenixcontact.de© 2008 Phoenix ContactTechnical modifications reserved;。

Extract from the onlinecatalogSPC 5/12-STCL-7,62Order No.: 1718588The figure shows a 5-pos. version of the producthttp://eshop.phoenixcontact.de/phoenix/treeViewClick.do?UID=1718588Plug, spring-cage connection, no. of positions: 12, pitch: 7.62 mm, U = 1000 V, I = 41 A, screw flange, shield connectionhttp://Please note that the data givenhere has been taken from theonline catalog. For comprehensiveinformation and data, please referto the user documentation. TheGeneral Terms and Conditions ofUse apply to Internet downloads.Technical dataDimensions / positionsPitch7.62 mmDimension a83.82 mmNumber of positions12Technical dataInsulating material group IRated surge voltage (III/3)8 kVRated surge voltage (III/2)8 kVRated surge voltage (II/2) 6 kVRated voltage (III/2)1000 VRated voltage (II/2)1000 V Connection in acc. with standard EN-VDE Nominal current I N41 A Nominal voltage U N1000 V Nominal cross section10 mm2 Maximum load current41 A Insulating material PA Inflammability class acc. to UL 94V0 Stripping length15 mmConnection dataConductor cross section solid min.0.2 mm2 Conductor cross section solid max.10 mm2 Conductor cross section stranded min.0.2 mm2 Conductor cross section stranded max. 6 mm2 Conductor cross section stranded, with ferrule0.25 mm2 without plastic sleeve min.Conductor cross section stranded, with ferrule6 mm2 without plastic sleeve max.Conductor cross section stranded, with ferrule0.25 mm2 with plastic sleeve min.Conductor cross section stranded, with ferrule4 mm2 with plastic sleeve max.Conductor cross section AWG/kcmil min.24 Conductor cross section AWG/kcmil max82 conductors with same cross section, stranded,0.25 mm2 TWIN ferrules with plastic sleeve, min.2 conductors with same cross section, stranded,1.5 mm2 TWIN ferrules with plastic sleeve, max.Certificates / ApprovalsCertification CUL, ULCULNominal voltage U N600 VNominal current I N 35 A AWG/kcmil 24-8ULNominal voltage U N 600 V Nominal current I N 35 A AWG/kcmil 24-8Drawings DiagramDerating curve for: SPC 5/...-ST-7.62 with PC 5/...-G-7.62Derating curve for: SPC 5/...-ST-7.62 with PC 5/...-G-7.62Conductor cross-section: 6 mm2Dimensioned drawingAddressPHOENIX CONTACT GmbH & Co. KGFlachsmarktstr. 832825 Blomberg,GermanyPhone +49 5235 3 00Fax +49 5235 3 41200http://www.phoenixcontact.de© 2008 Phoenix ContactTechnical modifications reserved;。