VND1NV04 / VNN1NV04 / VNS1NV04 ® “OMNIFET II”: FULLY AUTOPROTECTED POWER MOSFET TYPE VND1NV04 RDS(on) VNN1NV04 250 mΩ Ilim Vclamp 2 1.7 A 40 V VNS1NV04 2 1 n LINEAR CURRENT LIMITATION n THERMAL SHUT DOWN n SHORT CIRCUIT PROTECTION n INTEGRATED CLAMP n LOW CURRENT DRAWN FROM INPUT PIN n DIAGNOSTIC FEEDBACK THROUGH INPUT 3 SOT-223 SO-8 3 1 TO-252 (DPAK) PIN n ESD PROTECTION ORDER CODES: n DIRECT ACCESS TO THE GATE OF THE POWER MOSFET (ANALOG DRIVING) n COMPATIBLE WITH STANDARD POWER MOSFET DESCRIPTION The VND1NV04, VNN1NV04, VNS1NV04 are monolithic devices designed in STMicroelectronics VIPower M0-3 Technology, intended for replacement of standard Power TO-252 (DPAK) SOT-223 SO-8 VND1NV04 VNN1NV04 VNS1NV04 MOSFETS from DC up to 50KHz applications. 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. BLOCK DIAGRAM DRAIN 2 Overvoltage Clamp INPUT 1 Gate Control Over Temperature Linear Current Limiter 3 SOURCE February 2003 FC01000 1/18 VND1NV04 / VNN1NV04 / VNS1NV04 ABSOLUTE MAXIMUM RATING Symbol Parameter VDS VIN IIN RIN MIN ID IR VESD1 Drain-source Voltage (VIN=0V) Input Voltage Input Current Minimum Input Series Impedance Drain Current Reverse DC Output Current Electrostatic Discharge (R=1.5KΩ, C=100pF) Electrostatic Discharge on output pin only (R=330Ω, C=150pF) Total Dissipation at Tc=25°C Operating Junction Temperature Case Operating Temperature Storage Temperature VESD2 Ptot Tj Tc Tstg SOT-223 Value SO-8 Internally Clamped Internally Clamped +/-20 330 Internally Limited -3 4000 DPAK V V mA Ω A A V 16500 7 8.3 Internally limited Internally limited -55 to 150 V 35 CONNECTION DIAGRAM (TOP VIEW) SO-8 Package (*) 1 SOURCE 8 DRAIN SOURCE DRAIN SOURCE DRAIN 4 INPUT 5 DRAIN (*) For the pins configuration related to SOT-223 and DPAK see outline at page 1. CURRENT AND VOLTAGE CONVENTIONS ID DRAIN IIN RIN INPUT SOURCE VIN 2/18 Unit VDS W °C °C °C VND1NV04 / VNN1NV04 / VNS1NV04 THERMAL DATA Symbol Rthj-case Rthj-lead Rthj-amb (*) When Parameter Thermal Resistance Junction-case}}} Thermal Resistance Junction-lead Thermal Resistance Junction-ambient MAX MAX MAX SOT-223 18 70 (*) Value SO-8 DPAK 3.5 15 65(*) 54 (*) Unit °C/W °C/W °C/W mounted on a standard single-sided FR4 board with 50mm2 of Cu (at least 35 µm thick) connected to all DRAIN pins. ELECTRICAL CHARACTERISTICS (-40°C < Tj < 150°C, unless otherwise specified) OFF Symbol VCLAMP VCLTH VINTH IISS VINCL Parameter Drain-source Clamp Voltage Drain-source Clamp Threshold Voltage Input Threshold Voltage Supply Current from Input Pin Input-Source Clamp Voltage IDSS Zero Input Voltage Drain Current (VIN=0V) Symbol Parameter Test Conditions Min Typ Max Unit VIN=0V; ID=0.5A 40 45 55 V VIN=0V; ID=2mA 36 VDS=VIN; ID=1mA 0.5 VDS=0V; VIN=5V IIN=1mA IIN=-1mA VDS=13V; VIN=0V; Tj=25°C V 100 6 6.8 -1.0 2.5 V 150 µA 8 -0.3 30 VDS=25V; VIN=0V 75 V µA ON RDS(on) Static Drain-source On Resistance Test Conditions VIN=5V; ID=0.5A; Tj=25°C VIN=5V; ID=0.5A Min Typ Max 250 500 Unit mΩ 3/18 1 VND1NV04 / VNN1NV04 / VNS1NV04 ELECTRICAL CHARACTERISTICS (continued) (Tj=25°C, unless otherwise specified) DYNAMIC Symbol gfs (**) COSS Parameter Forward Transconductance Output Capacitance Test Conditions Min Typ Max Unit VDD=13V; ID=0.5A 2 S VDS=13V; f=1MHz; VIN=0V 90 pF SWITCHING Symbol td(on) tr td(off) tf td(on) tr td(off) tf Parameter Turn-on Delay Time Rise Time Turn-off Delay Time Fall Time Turn-on Delay Time Rise Time Turn-off Delay Time Fall Time (dI/dt)on Turn-on Current Slope Qi Total Input Charge Test Conditions Min VDD=15V; ID=0.5A Vgen=5V; Rgen=RIN MIN=330Ω (see figure 1) VDD=15V; ID=0.5A Vgen=5V; Rgen=2.2KΩ (see figure 1) VDD=15V; ID=1.5A Vgen=5V; Rgen=RIN MIN=330Ω VDD=12V; ID=0.5A; VIN=5V Igen=2.13mA (see figure 5) Typ 70 170 350 200 0.25 1.3 1.8 1.2 Max 200 500 1000 600 1.0 4.0 5.5 4.0 Unit ns ns ns ns µs µs µs µs 5.0 A/µs 5.0 nC SOURCE DRAIN DIODE Symbol VSD (*) trr Qrr IRRM Parameter Forward On Voltage Reverse Recovery Time Reverse Recovery Charge Test Conditions ISD=0.5A; VIN=0V ISD=0.5A; dI/dt=6A/µs Min VDD=30V; L=200µH Reverse Recovery Current (see test circuit, figure 2) Typ 0.8 205 100 Max 0.75 Unit V ns µC A PROTECTIONS (-40°C < Tj < 150°C, unless otherwise specified) Symbol Ilim tdlim Tjsh Tjrs Igf Eas Parameter Drain Current Limit Step Response Current Limit Test Conditions VIN=5V; VDS=13V VIN=5V; VDS=13V Overtemperature Shutdown Overtemperature Reset Fault Sink Current Single Pulse Avalanche Energy VIN=5V; VDS=13V; Tj=Tjsh Starting Tj=25°C; VDD=24V VIN=5V; Rgen=RIN MIN=330Ω; L=50mH (see figures 3 & 4) (**) Pulsed: Pulse duration = 300µs, duty cycle 1.5% 4/18 2 Min 1.7 Typ Max 3.5 Unit A µs 2.0 150 175 200 °C 135 10 15 20 °C mA 55 mJ VND1NV04 / VNN1NV04 / VNS1NV04 PROTECTION FEATURES During normal operation, the INPUT pin is electrically connected to the gate of the internal power MOSFET through a low impedance path. The device then behaves like a standard power MOSFET and can be used as a switch from DC up to 50KHz. The only difference from the user’s standpoint is that a small DC current IISS (typ. 100µA) flows into the INPUT pin in order to supply the internal circuitry. The device integrates: - OVERVOLTAGE CLAMP PROTECTION: internally set at 45V, along with the rugged avalanche characteristics of the Power MOSFET stage give this device unrivalled ruggedness and energy handling capability. This feature is mainly important when driving inductive loads. - LINEAR CURRENT LIMITER CIRCUIT: limits the drain current ID to Ilim whatever the INPUT pin voltages. When the current limiter is active, the device operates in the linear region, so power dissipation may exceed the capability of the heatsink. Both case and junction temperatures increase, and if this phase lasts long enough, junction temperature may reach the overtemperature threshold Tjsh. - OVERTEMPERATURE AND SHORT CIRCUIT PROTECTION: these are based on sensing the chip temperature and are not dependent on the input voltage. The location of the sensing element on the chip in the power stage area ensures fast, accurate detection of the junction temperature. Overtemperature cutout occurs in the range 150 to 190 °C, a typical value being 170 °C. The device is automatically restarted when the chip temperature falls of about 15°C below shut-down temperature. - STATUS FEEDBACK: in the case of an overtemperature fault condition (Tj > Tjsh), the device tries to sink a diagnostic current Igf through the INPUT pin in order to indicate fault condition. If driven from a low impedance source, this current may be used in order to warn the control circuit of a device shutdown. If the drive impedance is high enough so that the INPUT pin driver is not able to supply the current Igf, the INPUT pin will fall to 0V. This will not however affect the device operation: no requirement is put on the current capability of the INPUT pin driver except to be able to supply the normal operation drive current IISS. Additional features of this device are ESD protection according to the Human Body model and the ability to be driven from a TTL Logic circuit. 5/18 VND1NV04 / VNN1NV04 / VNS1NV04 Figure 1: Switching Time Test Circuit for Resistive Load VD Rgen Vgen ID 90% tr tf 10% t Vgen td(on) td(off) t Figure 2: Test Circuit for Diode Recovery Times A A D I FAST DIODE OMNIFET S L=100uH B B 330Ω D Rgen Vgen VDD I OMNIFET S 8.5 Ω 6/18 VND1NV04 / VNN1NV04 / VNS1NV04 Figure 3: Unclamped Inductive Load Test Circuits Figure 4: Unclamped Inductive Waveforms RGEN VIN PW Figure 6: Thermal Impedance for SOT-223 Figure 5: Input Charge Test Circuit VIN GEN ND8003 Figure 7: Thermal Impedance for DPAK/IPAK 7/18 VND1NV04 / VNN1NV04 / VNS1NV04 Source-Drain Diode Forward Characteristics Static Drain Source On Resistance Vsd (mV) Rds(on) (ohms) 1000 4.5 Tj=-40ºC 4 950 Vin=2.5V 3.5 Vin=0V 900 3 2.5 850 2 1.5 800 Tj=25ºC 1 750 Tj=150ºC 0.5 0 700 0 2 4 6 8 10 12 14 0 0.05 0.1 0.15 Id (A) 0.2 0.25 0.3 Id(A) Static Drain-Source On resistance Vs. Input Voltage Derating Curve Rds(on) (mohms) 500 450 Id=0.5A 400 Tj=150ºC 350 300 250 200 Tj=25ºC 150 Tj=-40ºC 100 50 0 3 3.5 4 4.5 5 5.5 6 6.5 7 Vin(V) Static Drain-Source On resistance Vs. Input Voltage Rds(on) (mohms) Gfs (S) 500 6 Tj=150ºC 5.5 450 Id=1.5A Id=1A 350 Tj=25ºC 4.5 4 300 Tj=150ºC 3.5 Tj=25ºC 250 3 2.5 200 Id=1.5A Id=1A Tj=-40ºC 2 150 Id=1.5A Id=1A 100 1.5 1 50 0.5 0 0 3 3.5 4 4.5 Vin(V) 1 Tj=-40ºC Vds=13V 5 400 8/18 Transconductance 5 5.5 6 6.5 0 0.25 0.5 0.75 1 Id(A) 1.25 1.5 1.75 2 VND1NV04 / VNN1NV04 / VNS1NV04 Static Drain-Source On Resistance Vs. Id Transfer Characteristics Rds(on) (mohms) Idon(A) 500 2.25 Tj=25ºC Vin=3.5V 450 2 Vds=13.5V Tj=150ºC 400 1.75 Vin=5V 350 1.5 300 1.25 250 Vin=3.5V 1 Vin=5V Vin=3.5V 0.75 Tj=150ºC Tj=25ºC 200 150 Tj=-40ºC Tj=-40ºC 0.5 Vin=5V 100 0.25 50 0 0 1.5 0 0.25 0.5 0.75 1 1.25 1.5 1.75 2 1.75 2 2.5 2.25 3 3.5 2.75 3.25 4 3.75 4.5 4.25 5 4.75 Vin(V) Id(A) Turn On Current Slope Turn On Current Slope di/dt(A/us) di/dt(A/us) 6 1.4 1.2 5 Vin=5V Vdd=15V Id=1.5A 4 Vin=3.5V Vdd=15V Id=1.5A 1 3 0.8 2 0.6 1 0.4 0.2 0 0 500 1000 1500 2000 0 2500 500 1000 1500 2000 2500 Rg(ohm) Rg(ohm) Turn off drain source voltage slope Input Voltage Vs. Input Charge Vin (V) dv/dt(V/us) 6 350 300 5 Vds=12V Id=0.5A Vin=5V Vdd=15V Id=0.5A 250 4 200 3 150 2 100 1 50 0 0 0 1 2 3 Qg (nC) 4 5 6 0 500 1000 1500 2000 2500 Rg(ohm) 9/18 VND1NV04 / VNN1NV04 / VNS1NV04 Turn Off Drain-Source Voltage Slope Capacitance Variations dv/dt(V/us) C(pF) 350 225 300 200 Vin=3.5V Vdd=15V Id=0.5A 250 f=1MHz Vin=0V 175 200 150 150 125 100 100 50 75 0 50 0 500 1000 1500 2000 2500 0 5 10 15 Rg(ohm) 20 25 30 35 Vds(V) Switching Time Resistive Load Switching Time Resistive Load t(us) t(ns) 2 550 500 1.75 td(off) Vdd=15V Id=0.5A Vin=5V 1.5 Vdd=15V Id=0.5A Rg=330ohm tr 450 400 tr 1.25 350 tf 1 td(off) 300 250 tf 0.75 200 0.5 150 td(on) td(on) 100 0.25 50 0 0 250 500 750 1000 1250 1500 1750 2000 2250 2500 0 3.25 3.5 3.75 4 Rg(ohm) 4.25 4.5 4.75 5 5.25 Vin(V) Normalized On Resistance Vs. Temperature Output Characteristics Rds(on) (mOhm) ID(A) 2.25 2.4 Vin=5.5V 2.2 2 Vin=4.5V 2 Vin=5V Id=0.5A Vin=3.5V 1.8 1.75 1.6 1.5 1.4 1.2 1.25 1 0.8 1 0.6 0.4 0.75 Vin=3V 0.2 0.5 0 0 1 2 3 4 5 6 VDS(V) 10/18 1 7 8 9 10 11 12 -50 -25 0 25 50 75 Tc (ºC) 100 125 150 175 VND1NV04 / VNN1NV04 / VNS1NV04 Normalized Input Temperature Threshold Voltage Vinth (V) Vs. Normalized Current Temperature Limit Vs. Junction Ilim (A) 2 5 1.8 4.5 Vds=Vin Id=1mA 1.6 Vin=5V Vds=13V 4 3.5 1.4 1.2 3 1 2.5 0.8 2 0.6 1.5 0.4 1 0.2 0.5 0 0 -50 -25 0 25 50 75 100 125 150 175 Tc (ºC) -50 -25 0 25 50 75 100 125 150 175 Tc (ºC) Step Response Current Limit Tdlim(us) 2.4 2.3 Vin=5V Rg=330ohm 2.2 2.1 2 1.9 5 10 15 20 25 30 35 Vdd(V) 11/18 VND1NV04 / VNN1NV04 / VNS1NV04 SOT-223 MECHANICAL DATA mm. inch DIM. MIN. TYP A MAX. MIN. TYP. MAX. 1.8 0.071 B 0.6 0.7 0.85 0.024 0.027 0.033 B1 2.9 3 3.15 0.114 0.118 0.124 c 0.24 0.26 0.35 0.009 0.01 0.014 D 6.3 6.5 6.7 0.248 0.256 0.264 e 2.3 0.09 e1 4.6 0.181 E 3.3 3.5 3.7 0.13 0.138 0.146 H 6.7 7 7.3 0.264 0.276 0.287 V A1 10 (max) 0.02 0.1 0.0008 0.004 0046067 12/18 VND1NV04 / VNN1NV04 / VNS1NV04 SO-8 MECHANICAL DATA mm. inch DIM. MIN. TYP A a1 MAX. MIN. TYP. 1.75 0.1 0.068 0.25 a2 MAX. 0.003 0.009 1.65 0.064 a3 0.65 0.85 0.025 0.033 b 0.35 0.48 0.013 0.018 b1 0.19 0.25 0.007 0.010 C 0.25 0.5 0.010 0.019 c1 45 (typ.) D 4.8 5.0 0.188 0.196 E 5.8 6.2 0.228 0.244 e 1.27 0.050 e3 3.81 0.150 F 3.8 4.0 0.14 0.157 L 0.4 1.27 0.015 0.050 M F 0.6 0.023 8 (max.) 13/18 VND1NV04 / VNN1NV04 / VNS1NV04 TO-252 (DPAK) MECHANICAL DATA DIM. mm. MIN. TYP MAX. A 2.20 2.40 A1 0.90 1.10 A2 0.03 0.23 B 0.64 0.90 B2 5.20 5.40 C 0.45 0.60 C2 0.48 0.60 D 6.00 6.20 D1 E 5.1 6.40 6.60 E1 4.7 e 2.28 G 4.40 4.60 H 9.35 10.10 L2 L4 0.8 0.60 R V2 Package Weight 1.00 0.2 0° 8° Gr. 0.29 P032P 14/18 VND1NV04 / VNN1NV04 / VNS1NV04 DPAK FOOTPRINT TUBE SHIPMENT (no suffix) A 6 .7 1 .8 3 .0 1 .6 C 2 .3 6 .7 2 .3 B Base Q.ty Bulk Q.ty Tube length (± 0.5) A B C (± 0.1) 75 3000 532 6 21.3 0.6 All dimensions are in mm. TAPE AND REEL SHIPMENT (suffix “13TR”) REEL DIMENSIONS Base Q.ty Bulk Q.ty A (max) B (min) C (± 0.2) F G (+ 2 / -0) N (min) T (max) 2500 2500 330 1.5 13 20.2 16.4 60 22.4 TAPE DIMENSIONS According to Electronic Industries Association (EIA) Standard 481 rev. A, Feb 1986 Tape width Tape Hole Spacing Component Spacing Hole Diameter Hole Diameter Hole Position Compartment Depth Hole Spacing W P0 (± 0.1) P D (± 0.1/-0) D1 (min) F (± 0.05) K (max) P1 (± 0.1) All dimensions are in mm. 16 4 8 1.5 1.5 7.5 6.5 2 End Start Top No components Components No components cover tape 500mm min Empty components pockets saled with cover tape. 500mm min User direction of feed 15/18 VND1NV04 / VNN1NV04 / VNS1NV04 SOT-223 TAPE AND REEL SHIPMENT (suffix “13TR”) REEL DIMENSIONS Base Q.ty Bulk Q.ty A (max) B (min) C (± 0.2) F G (+ 2 / -0) N (min) T (max) 1000 1000 330 1.5 13 20.2 12.4 60 18.4 TAPE DIMENSIONS According to Electronic Industries Association (EIA) Standard 481 rev. A, Feb. 1986 Tape width Tape Hole Spacing Component Spacing Hole Diameter Hole Diameter Hole Position Compartment Depth Hole Spacing W P0 (± 0.1) P D (± 0.1/-0) D1 (min) F (± 0.05) K (max) P1 (± 0.1) 12 4 8 1.5 1.5 5.5 4.5 2 All dimensions are in mm. End Start Top No components Components No components cover tape 500mm min Empty components pockets saled with cover tape. 500mm min User direction of feed 16/18 1 VND1NV04 / VNN1NV04 / VNS1NV04 SO-8 TUBE SHIPMENT (no suffix) B Base Q.ty Bulk Q.ty Tube length (± 0.5) A B C (± 0.1) C A 100 2000 532 3.2 6 0.6 All dimensions are in mm. TAPE AND REEL SHIPMENT (suffix “13TR”) REEL DIMENSIONS Base Q.ty Bulk Q.ty A (max) B (min) C (± 0.2) F G (+ 2 / -0) N (min) T (max) 2500 2500 330 1.5 13 20.2 12.4 60 18.4 All dimensions are in mm. TAPE DIMENSIONS According to Electronic Industries Association (EIA) Standard 481 rev. A, Feb 1986 Tape width Tape Hole Spacing Component Spacing Hole Diameter Hole Diameter Hole Position Compartment Depth Hole Spacing W P0 (± 0.1) P D (± 0.1/-0) D1 (min) F (± 0.05) K (max) P1 (± 0.1) All dimensions are in mm. 12 4 8 1.5 1.5 5.5 4.5 2 End Start Top No components Components No components cover tape 500mm min Empty components pockets saled with cover tape. 500mm min User direction of feed 17/18 VND1NV04 / VNN1NV04 / VNS1NV04 Information 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 results 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. 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