STL16N65M5 N-channel 650 V, 0.270 , 12 A PowerFLATTM 8x8 HV MDmeshTM V Power MOSFET Features Order code VDSS @ TJmax RDS(on) max 710 V < 0.299 STL16N65M5 ID 3 3 12 A (1) "OTTOM VIEW 3 ' $ 1. The value is rated according to Rthj-case 100% avalanche tested Low input capacitance and gate charge Low gate input resistance 0OWER&,!4 X (6 Applications Switching applications Description Figure 1. This device is an N-channel MDmeshTM V Power MOSFET based on an innovative proprietary vertical process technology, which is combined with STMicroelectronics' well-known PowerMESHTM horizontal layout structure. The resulting product has extremely low onresistance, which is unmatched among siliconbased Power MOSFETs, making it especially suitable for applications which require superior power density and outstanding efficiency. Internal schematic diagram $ ' 3 !-V Table 1. Device summary Order code Marking Package Packaging STL16N65M5 16N65M5 PowerFLATTM 8x8 HV Tape and reel November 2011 Doc ID 17448 Rev 5 1/15 www.st.com 15 Contents STL16N65M5 Contents 1 Electrical ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 2 Electrical characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4 2.1 Electrical characteristics (curves) ............................. 6 3 Test circuits 4 Package mechanical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 5 Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 2/15 .............................................. 9 Doc ID 17448 Rev 5 STL16N65M5 1 Electrical ratings Electrical ratings Table 2. Symbol Absolute maximum ratings Parameter Value Unit VDS Drain-source voltage (VGS = 0) 650 V VGS Gate-source voltage 25 V Drain current (continuous) at TC = 25 C 12 A Drain current (continuous) at TC = 100 C 7.4 A ID (1) ID (1) IDM (1),(2) Drain current (pulsed) 48 A ID(3) Drain current (continuous) at Tamb = 25 C 2 A ID(3) Drain current (continuous) at Tamb = 100 C 1.3 A 8 A Total dissipation at Tamb = 25 C 3 W Total dissipation at TC = 25 C 90 W IAR Avalanche current, repetitive or notrepetitive (pulse width limited by Tj max) 4 A EAS Single pulse avalanche energy (starting Tj = 25 C, ID = IAR, VDD = 50 V) 200 mJ Peak diode recovery voltage slope 15 V/ns - 55 to 150 C 150 C Value Unit 1.38 C/W 45 C/W IDM(2),(3) Drain current (pulsed) PTOT (3) PTOT(1) dv/dt (4) Tstg Tj Storage temperature Max. operating junction temperature 1. The value is rated according to Rthj-case 2. Pulse width limited by safe operating area 3. When mounted on FR-4 board of inch, 2oz Cu 4. ISD 12 A, di/dt 400 A/s, VPeak < V(BR)DSS, VDD = 400 V Table 3. Symbol Rthj-case Thermal data Parameter Thermal resistance junction-case max Rthj-amb(1) Thermal resistance junction-amb max 1. When mounted on 1inch FR-4 board, 2 oz Cu Doc ID 17448 Rev 5 3/15 Electrical characteristics 2 STL16N65M5 Electrical characteristics (TC = 25 C unless otherwise specified) Table 4. Symbol V(BR)DSS On /off states Parameter Test conditions Drain-source breakdown voltage (VGS = 0) ID = 1 mA Min. Typ. Max. Unit 650 V IDSS VDS = 650 V Zero gate voltage drain current (VGS = 0) VDS = 650 V, TC=125 C 1 100 A A IGSS Gate-body leakage current (VDS = 0) 100 nA 4 5 V 0.270 0.299 Min. Typ. Max. Unit - 1250 30 3 - pF pF pF - 100 - pF - 30 - pF VGS = 25 V VGS(th) Gate threshold voltage VDS = VGS, ID = 250 A RDS(on) Static drain-source on resistance Table 5. Symbol Ciss Coss Crss 3 VGS = 10 V, ID = 6 A Dynamic Parameter Input capacitance Output capacitance Reverse transfer capacitance Co(tr)(1) Equivalent capacitance time related Co(er)(2) Equivalent capacitance energy related Test conditions VDS = 100 V, f = 1 MHz, VGS = 0 VDS = 0 to 520 V, VGS = 0 RG Intrinsic gate resistance f = 1 MHz open drain - 2 - Qg Qgs Qgd Total gate charge Gate-source charge Gate-drain charge VDD = 520 V, ID = 6 A, VGS = 10 V (see Figure 16) - 31 8 12 - nC nC nC 1. Coss eq. time related is defined as a constant equivalent capacitance giving the same charging time as Coss when VDS increases from 0 to 80% VDSS 2. Coss eq. energy related is defined as a constant equivalent capacitance giving the same stored energy as Coss when VDS increases from 0 to 80% VDSS 4/15 Doc ID 17448 Rev 5 STL16N65M5 Electrical characteristics Table 6. Symbol td (v) tr (v) tf (i) tc(off) Table 7. Switching times Parameter Test conditions Voltage delay time Voltage rise time Current fall time Crossing time VDD = 400 V, ID = 8 A, RG = 4.7 , VGS = 10 V (see Figure 17), (see Figure 20) Parameter ISD ISDM (1) Source-drain current Source-drain current (pulsed) VSD (2) Forward on voltage IRRM trr Qrr IRRM Typ. - 25 7 6 8 Min. Typ. Max Unit - ns ns ns ns Source drain diode Symbol trr Qrr Min. Test conditions Max. Unit - 12 48 A A ISD = 12 A, VGS = 0 - 1.5 V Reverse recovery time Reverse recovery charge Reverse recovery current ISD = 12 A, di/dt = 100 A/s VDD = 100 V (see Figure 17) - 300 3.5 23 ns C A Reverse recovery time Reverse recovery charge Reverse recovery current ISD = 12 A, di/dt = 100 A/s VDD = 100 V, Tj = 150 C (see Figure 17) - 350 4 24 ns C A 1. Pulse width limited by safe operating area 2. Pulsed: pulse duration = 300 s, duty cycle 1.5% Doc ID 17448 Rev 5 5/15 Electrical characteristics STL16N65M5 2.1 Electrical characteristics (curves) Figure 2. Safe operating area Figure 3. Thermal impedance AM10357v1 ID (A) Zth PowerFLAT 8x8 HV K =0.5 10 O Li per m at ite io d ni by n m this ax a R rea is 0.2 D S( on ) 10s 1 0.1 100s -1 10 0.05 1ms 0.02 0.01 10ms 0.1 Tj=150C Tc=25C Single pulse -2 0.01 0.1 Figure 4. ID (A) Single pulse 10 1 100 10 -5 10 VDS(V) Output characteristics Figure 5. AM03178v1 VGS=10V -4 -2 -3 10 10 10 tp (s) Transfer characteristics AM03179v1 ID (A) VDS=10V 7.5V 20 20 7V 15 15 6.5V 10 10 6V 5 5 5.5V 0 0 Figure 6. 2 6 4 8 10 12 14 16 18 0 VDS(V) Normalized BVDSS vs temperature AM03187v1 BVDSS (norm) ID=1mA 3 Figure 7. 4 5 6 7 8 9 VGS(V) Static drain-source on resistance AM10358v1 RDS(on) () VGS=10V 1.07 0.29 1.05 0.28 1.03 0.27 1.01 0.99 0.26 0.97 0.25 0.95 0.93 -50 -25 6/15 0.24 0 25 50 75 100 TJ(C) Doc ID 17448 Rev 5 0 2 4 6 8 10 12 ID(A) STL16N65M5 Figure 8. Electrical characteristics Output capacitance stored energy AM03312v1 Eoss (J) 7 Figure 9. Capacitance variations AM03183v1 C (pF) 10000 6 5 Ciss 1000 4 100 3 Coss 2 10 Crss 1 0 0 100 200 300 400 500 600 1 0.1 VDS(V) 1 10 100 VDS(V) Figure 10. Gate charge vs gate-source voltage Figure 11. Normalized on resistance vs temperature AM03182v1 VGS (V) (norm) VDD=520V VGS=10V ID=6A 12 VDS AM03185v1 RDS(on) VGS=10V ID=6.5V 2.1 500 1.9 10 400 8 1.7 1.5 300 6 200 4 1.3 1.1 0.9 100 2 0 0 5 10 15 20 25 30 35 Qg(nC) Figure 12. Normalized gate threshold voltage vs temperature AM03184v1 VGS(th) (norm) ID=250A 1.10 0.7 0.5 -50 0 50 TJ(C) 100 Figure 13. Source-drain diode forward characteristics AM03186v1 VSD (V) 1.0 TJ=-25C 0.9 1.00 0.8 0.90 TJ=25C 0.7 TJ=150C 0.6 0.80 0.5 0.70 -50 0.4 0 50 100 TJ(C) Doc ID 17448 Rev 5 0 5 10 ISD(A) 7/15 Electrical characteristics STL16N65M5 Figure 14. Switching losses vs gate resistance (1) AM10359v1 E (J) ID=18A L=50H VDD=400V 100 Eon 80 60 Eoff 40 20 0 0 10 20 30 40 RG() 1. Eon including reverse recovery of a SiC diode 8/15 Doc ID 17448 Rev 5 STL16N65M5 3 Test circuits Test circuits Figure 15. Switching times test circuit for resistive load Figure 16. Gate charge test circuit VDD 12V 47k 1k 100nF 3.3 F 2200 RL F VGS IG=CONST VDD 100 Vi=20V=VGMAX VD RG 2200 F D.U.T. D.U.T. VG 2.7k PW 47k 1k PW AM01468v1 AM01469v1 Figure 17. Test circuit for inductive load Figure 18. Unclamped inductive load test switching and diode recovery times circuit A A D.U.T. FAST DIODE B B L A D G VD L=100H S 3.3 F B 25 1000 F D VDD 2200 F 3.3 F VDD ID G RG S Vi D.U.T. Pw AM01470v1 Figure 19. Unclamped inductive waveform V(BR)DSS AM01471v1 Figure 20. Switching time waveform Concept waveform for Inductive Load Turn-off Id VD 90%Vds 90%Id Tdelay-off -off IDM Vgs 90%Vgs on ID Vgs(I(t)) )) VDD VDD 10%Id 10%Vds Vds Trise AM01472v1 Doc ID 17448 Rev 5 Tfall Tcross --over AM05540v1 9/15 Package mechanical data 4 STL16N65M5 Package mechanical data In order to meet environmental requirements, ST offers these devices in different grades of ECOPACK(R) packages, depending on their level of environmental compliance. ECOPACK(R) specifications, grade definitions and product status are available at: www.st.com. ECOPACK is an ST trademark. 10/15 Doc ID 17448 Rev 5 STL16N65M5 Package mechanical data Table 8. PowerFLATTM 8x8 HV mechanical data mm Dim. Min. Typ. Max. A 0.80 0.90 1.00 A1 0.00 0.02 0.05 b 0.95 1.00 1.05 D 8.00 E 8.00 D2 7.05 7.20 7.30 E2 4.15 4.30 4.40 e L 2.00 0.40 0.50 aaa 0.10 bbb 0.10 ccc 0.10 Doc ID 17448 Rev 5 0.60 11/15 Package mechanical data STL16N65M5 Figure 21. PowerFLATTM 8x8 HV drawing mechanical data BOTTOM VIEW b CA B L bbb 0.40 E2 PIN#1 ID D2 C A ccc C A1 0.200.008 SIDE VIEW SEATING PLANE 0.08 C D A B E INDEX AREA aaa C TOP VIEW aaa C 8222871_Rev_B 12/15 Doc ID 17448 Rev 5 STL16N65M5 Package mechanical data Figure 22. PowerFLATTM 8x8 HV recommended footprint 0.60 7.70 4.40 7.30 2.00 1.05 Footprint Doc ID 17448 Rev 5 13/15 Revision history 5 STL16N65M5 Revision history Table 9. 14/15 Document revision history Date Revision Changes 30-Apr-2010 1 First release 08-Jun-2010 2 VGS value has been changed in Table 4 10-Feb-2011 3 Modified RDS(on) value 28-Jul-2011 4 Document status promoted from preliminary data to datasheet Added Section 2.1: Electrical characteristics (curves) Minor text changes 03-Nov-2011 5 Section 4: Package mechanical data has been modified. Doc ID 17448 Rev 5 STL16N65M5 Please Read Carefully: Information in this document is provided solely in connection with ST products. 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