Transcription of Datasheet lim Vclamp - st.com
1 This is information on a product in full production. September 2013 Doc ID 15626 Rev. 51/221 VNN3NV04P-EVNS3NV04P-EOMNIFET IIfully autoprotected Power MOSFETD atasheet production dataFeatures Linear current limitation Thermal shutdown Short circuit protection Integrated clamp Low current drawn from input pin Diagnostic feedback through input pin ESD protection Direct access to the gate of the Power MOSFET (analog driving) Compatible with standard Power MOSFET in compliance with the 2002/95/EC European directiveDescriptionThe VNN3NV04P-E, VNS3NV04P-E, are monolithic devices designed in STMicroelectronics VIPower M0-3 Technology, intended for replacement of standard Power MOSFETs from DC up to 50 kHz applications.
2 Built in thermal shutdown, linear current limitation and overvoltage clamp protect the chip in harsh environments. Fault feedback can be detected by monitoring the voltage at the input pin. TypeRDS(on)IlimVclampVNN3NV04P-EVNS3NV04 P-E120 m A40 VTable summaryPackageOrder codesTubeTape and reelSOT-223 VNN3NV04 PTR-ESO-8 VNS3NV04P-EVNS3NV04 PTR-E , VNS3NV04P-E2/22 Doc ID 15626 Rev. 5 Contents1 Block diagram and pin description .. 52 Electrical specifications .. maximum ratings .. data .. characteristics .. 73 Protection features .. characteristics curves.
3 124 Package and packing information .. mechanical data .. mechanical data .. packing information .. packing information .. 205 Revision history .. 21 VNN3NV04P-E, VNS3NV04P-EList of tablesDoc ID 15626 Rev. 53/22 List of tablesTable summary .. 1 Table maximum ratings .. 6 Table data.. 7 Table characteristics .. 7 Table mechanical data .. 16 Table mechanical data .. 17 Table revision history .. 21 List of figuresVNN3NV04P-E, VNS3NV04P-E4/22 Doc ID 15626 Rev. 5 List of figuresFigure diagram .. 5 Figure diagram (top view) .. 5 Figure and voltage conventions.
4 6 Figure time test circuit for resistive load .. 10 Figure circuit for diode recovery times .. 10 Figure inductive load test circuits .. 11 Figure charge test circuit.. 11 Figure inductive waveforms .. 11 Figure impedance for SOT-223 .. 12 Figure curve .. 12 Figure .. 12 Figure drain-source on resistance vs input voltage (part 1/2) .. 12 Figure drain-source on resistance vs input voltage (part 2/2) .. 12 Figure diode forward characteristics .. 12 Figure drain source on resistance .. 13 Figure current slope (part 1/2) .. 13 Figure current slope (part 2/2).
5 13 Figure characteristics .. 13 Figure drain-source on resistance vs Id .. 13 Figure voltage vs input charge .. 13 Figure drain source voltage slope (part 1/2).. 14 Figure drain source voltage slope (part 2/2).. 14 Figure variations .. 14 Figure characteristics .. 14 Figure on resistance vs temperature .. 14 Figure time resistive load (part 1/2) .. 14 Figure time resistive load (part 2/2) .. 15 Figure input threshold voltage vs temperature .. 15 Figure current limit vs junction temperature .. 15 Figure response current limit .. 15 Figure package dimensions.
6 16 Figure package dimensions .. 18 Figure tape and reel shipment (suffix TR ) .. 19 Figure tube shipment (no suffix) .. 20 Figure tape and reel shipment (suffix TR ) .. 20 VNN3NV04P-E, VNS3NV04P-EBlock diagram and pin descriptionDoc ID 15626 Rev. 55/221 Block diagram and pin descriptionFigure diagramFigure diagram (top view) 1. For the pins configuration related to SOT-223 see outlines at page 123 CurrentLimiterControl OverTemperature INPUTFC01000SO-8 Package(1)DRAINDRAIN DRAINDRAININPUTSOURCESOURCESOURCE1458 Electrical specificationsVNN3NV04P-E, VNS3NV04P-E6/22 Doc ID 15626 Rev.
7 52 Electrical specificationsFigure and voltage Absolute maximum ratings DRAININPUTSOURCEIDIINVINVDSRINT able maximum ratingsSymbolParameterValueUnitSOT-223SO -8 VDSD rain-source voltage (VIN= 0 V)Internally clampedVVINI nput voltageInternally clampedVIINI nput current +/-20mARIN MINM inimum input series impedance220 IDDrain current Internally limitedAIRR everse DC output current discharge (R = K , C = 100 pF)4000 VVESD2 Electrostatic discharge on output pin only (R = 330 , C = 150 pF)16500 VPtotTotal dissipation at Tc=25 junction temperatureInternally limited CTcCase operating temperatureInternally limited CTstgStorage temperature-55 to 150 CVNN3NV04P-E, VNS3NV04P-EElectrical specificationsDoc ID 15626 Rev.
8 57 Thermal data Electrical characteristics-40 C < Tj < 150 C, unless otherwise specified. Table dataSymbolParameterValueUnitSOT-223SO-8 Rthj-caseThermal resistance junction-case max18 C/WRthj-leadThermal resistance junction-lead max15 C/WRthj-ambThermal resistance junction-ambient max70(1)1. When mounted on a standard single-sided FR4 board with 50 mm2 of Cu (at least 35 mm thick) connected to all DRAIN (1) C/WTable characteristicsSymbolParameterTest conditionsMinTypMaxUnitOffVCLAMPD rain-source clamp voltageVIN=0V; ID= A 404555 VVCLTHD rain-source clamp threshold voltageVIN=0V; ID=2mA 36 VVINTHI nput threshold voltageVDS=VIN; ID= current from input pin VDS=0V.
9 VIN= 5 V 100150 AVINCLI nput-source clamp voltageIIN= -1 input voltage drain current (VIN=0V)VDS=13V; VIN=0V; Tj=25 C30 AVDS=25V; VIN=0V 75 AOnRDS(on)Static drain-source on resistanceVIN=5V; ID= A; Tj= 25 C120m VIN=5V; ID= A240m Dynamic (Tj=25 C, unless otherwise specified)gfs (1)Forward transconductanceVDD=13V; ID= capacitanceVDS=13V; f=1 MHz; VIN= 0 V 150pFSwitching (Tj= 25 C, unless otherwise specified)td(on)Turn-on delay time VDD=15V; ID= A; Vgen=5V; Rgen=RIN MIN=220 (see Figure 4)90300nstrRise time250750nstd(off)Turn-off delay time 4501350nstfFall time250750nsElectrical specificationsVNN3NV04P-E, VNS3NV04P-E8/22 Doc ID 15626 Rev.
10 5td(on)Turn-on delay time VDD=15V; ID= A; Vgen=5V; Rgen= (see Figure 4) strRise std(off)Turn-off delay time stfFall s(dI/dt)onTurn-on current slopeVDD=15V; ID= A; Vgen=5V; Rgen=RIN MIN=220 sQiTotal input chargeVDD=12V; ID= A; VIN=5V; Igen= (seeFigure 7) drain diode (Tj=25 C, unless otherwise specified)VSD(1)Forward on voltageISD= A; VIN= recovery timeISD= A; dI/dt = 12 A/ s; VDD=30V; L=200 H (seeFigure 5)107nsQrr Reverse recovery charge37 CIRRM Reverse recovery (-40 C < Tj < 150 C, unless otherwise specified)IlimDrain current limitVIN=5V; VDS=13V Step response current limitVIN=5V; VDS=13V10 sTjsh Over temperature shutdown150175200 CTjrs Over temperature reset135 CIgfFault sink currentVIN=5V; VDS=13V; Tj=Tjsh101520mAEas Single pulse avalanche energystarting Tj=25 C; VDD=24V; VIN=5V; Rgen=RIN MIN= 220 ; L = 24 mH (see Figure 6 and Figure 8)100mJ1.