M815FP D (TYP.) Q R 33 22 P S A C T U RECOMMENDED MOUNT PAD 1 21 K PIN NUMBER E F V D 1 U PIN 15 U NIN 16 V PIN 17 V NIN 18 W PIN 19 W NIN 2 F O 4 INPUT ACTIVE HIGH V REG INPUT CTROL Outline Drawing and Circuit Diagram Dimensions Inches Millimeters A.47±.12 11.93±.3 B.69±.8 17.5±.2 C.33±.12 8.4±.3 D.63 1.6 E.3.75 F.35 Max..9 Max. G.8 2. H.86 Max. 2.2 Max. J.7 1.765 K.4±.4.1±.1 B A FF T(TYP.) G H HIGH-SIDE LEVEL SHIFT DRIVE LOW-SIDE LEVEL SHIFT DRIVE COMP THERMAL SHUTDOWN BOOTSTRAP DIODES (BSDs) ARE BUILT IN DETAIL "A" (.5µs) J Dimensions Inches Millimeters L ~1 N DETAIL "A" M.2±.8.5±.2 N.1±.2/-.8.25+.5/-.2 P.45 11.43 Q.63 1.6 R.5 1.3 S.5 1.27 T.315.8 U.2.5 M 3 W FB 28 V FB 25 U FB 31 P 1 26 P 2 29 W 27 V 24 U 21 N 2 8 N 1 6 C IN L 9 13 GND 22 23 32 33 GND GND 1 V D 2 NC 3 NC 4 F O 5 NC 6 C IN 7 NC 8 N 1 9 GND 1 GND 11 GND 12 GND 13 GND 14 NC 15 U PIN 16 U NIN 17 V PIN 18 V NIN 19 W PIN 2 W NIN 21 N 2 22 GND 23 GND 24 U 25 U FB 26 P 2 27 V 28 V FB 29 W 3 W FB 31 P 1 32 GND 33 GND Description: M815FP is a high voltage three-phase motor driver fabricated by a 5V high voltage SOI (Silicon On Insulator) process. This driver contains level shift high-side driver, low-side driver, IGBT's, free-wheel diodes, protective functions for overcurrent, under-voltage protection circuits and thermal shutdown circuit. Features: 5V Floating Supply Voltage Built in Bootstrap Diodes 3-Phase Bridge Output using IGBTs Built in Free-Wheel Diodes Applications: Exhaust Fans Dishwashers Air Conditioners Small Servo Motors Small Motor Control Ordering Information: M815FP 3/9 1
M815FP Absolute Maximum Ratings, T a = 25 C unless otherwise specified Characteristics Symbol M815FP Units Collector-Emitter Voltage V CES -.5 ~ 5 Volts Control Power Supply Voltage V D -.5 ~ 2 Volts Input Voltage (UP IN, VP IN, WP IN, UN IN, VN IN, WN IN ) V IN -.5 ~ V D +.5 Volts Each Collector Current I C.6 Amperes Each Peak Collector Current I CP 1.2 Amperes Power Dissipation (On Board, T a = 25 C) P D 2.6 Watts Power Dissipation (On Board, T C = 25 C) P D 25 Watts Junction Temperature T j -2 ~ 15 C Operating Temperature T opr -2 ~ 125 C Storage Temperature T stg -55 ~ 15 C Recommended Conditions for Use Characteristic Symbol Condition Min. Typ. Max. Units High Voltage Supply V CC Applied across P-N Terminals 5 28 45 Volts Control Power Supply Voltage V D 13.5 15 16.5 Volts Input Voltage V IN 7 Volts (UP IN, VP IN, WP IN, UN IN, VN IN, WN IN ) 2 3/9
M815FP Electrical and Mechanical Characteristics, unless otherwise specified Characteristics Symbol Test Conditions Min. Typ. Max. Units Floating Bootstrap Standby Current I FB *P IN = *N IN = V (* = U, V, W), FB = 15V.2.6 ma (Applied between U FB -U, V FB -V, W FB -W) Power Supply Voltage Standby Current I D *P IN = *N IN = V.4 1. 1.8 ma High Level Input Threshold Voltage V IH *P IN, *N IN Pin 3.5 Volts Low Level Input Threshold Voltage V IL *P IN, *N IN Pin 1.5 Volts High Level Input Bias Current I IH V IN = 5V 25 5 µa Low Level Input Bias Current I IL V IN = V 2 µa Floating Bootstrap Supply FB uvr U-Phase, V-Phase, W-Phase Common 7.9 8.7 9.7 Volts Reset Voltage Floating Bootstrap Supply FB uvt U-Phase, V-Phase, W-Phase Common 7.4 8.2 9. Volts Trip Voltage Floating Bootstrap Supply FB uvh U-Phase, V-Phase, W-Phase Common.35.5 Volts Hysteresis Voltage Floating Bootstrap Supply t FBuv U-Phase, V-Phase, W-Phase Common 6. µs Filter Time Power Supply Reset Voltage V Duvr U-Phase, V-Phase, W-Phase Common 7.9 8.7 9.7 Volts Power Supply Trip Voltage V Duvt U-Phase, V-Phase, W-Phase Common 7.4 8.2 9. Volts Power Supply Hysteresis Voltage V Duvh U-Phase, V-Phase, W-Phase Common.35.5 Volts Power Supply Filter Time t VDuv U-Phase, V-Phase, W-Phase Common 6. µs Short Current Trip Level V SC.43.5.57 Volts Fault Output Voltage V FoL C IN = 1V, I = 1mA.95 Volts Output Delay Time t on V CC = 28V, V D = 15V, I C =.5A, L = 5mH.4 µs Output OFF Delay Time t off V CC = 28V, V D = 15V, I C =.5A, L = 5mH.9 µs Forward Diode Reverse Recovery Time trr V CC = 28V, V D = 15V, I C =.5A, L = 5mH 18 ns Input Filter Time () t inon 9 15 21 ns Input Filter Time (OFF) t inoff 1 17 24 ns Output Saturation Voltage V CE(sat) V D = 15V, I F =.5A 2.3 3. Volts Diode Forward Voltage VF fwd I F =.5A 1.95 2.5 Volts Bootstrap Diodes Forward Voltage VF bsd I F = 6µA.75 1. Volts Over-Temperature Trip Level OT t 14 C Over-Temperature Reset Level OT r 12 C Over-Temperature Hysteresis Level OT h 2 C 3/9 3
M815FP Timing Requirement V IN UP IN, VP IN, WP IN, UN IN, VN IN, WN IN 5% 5% OUT (IGBT Current Wave Form) U, V, W Each Phase t (on) I rr I rr x.5 9% 9% t (off) 1% t rr 1% Timing Diagram 1. Input / Output Timing Diagram ACTIVE HIGH (When input signal, or is "H", then IGBT Upper or Lower arm is "".) In the case of both input signals, and of same phase are "H", IGBT Upper and Lower is "OFF". = UP IN, VP IN, WP IN = UN IN, VN IN, WN IN 2. V D Floating Bootstrap (FB) Supply Under-Voltage Lockout Timing Diagram When V D supply voltage keeps lower trip voltage (V Duvt = V Duvr V Duvh ) for V D supply filter time, output signal becomes "OFF". And then V D supply voltage is higher than reset voltage, input signal ( ) is H; the Lower-arm IGBT becomes "". At this time, the Upper-arm IGBT continues operating according to the input. V V Duvh D V Duvt V Duvr t VDuv twp When Floating Bootstrap supply voltage keeps lower trip voltage (FB uvt = FB uvr FB uvh ) for supply filter time, the Upper-arm IGBT becomes "OFF". And then, Floating Bootstrap supply voltage is higher than reset voltage, the Upper-arm IGBT keeps "OFF" until next input signal is "H". FB uvt t FBuv FB uvh FB uvr (H) 4 3/9
M815FP 3. Short Current Lockout Timing Diagram C IN t SC1 The output returns at time when the input signal became Lo Hi after becoming Lo the terminal C IN. 4. Over-Temperature Lockout Timing Diagram OT nh OT nh CHIP TEMPERATURE OTt OT r OT t OT r t OT t OT COLLECTOR-EMITTER VOLTAGE CHARACTERISTICS (U-PHASE LOWER-ARM - TYPICAL) RWARD VOLTAGE CHARACTERISTICS (U-PHASE LOWER-ARM - TYPICAL) BOOTSTRAP DIODE CHARACTERISTICS (U-PHASE - TYPICAL) COLLECTOR-CURRENT, I C, (AMPERES) 1..8.6.4.2 RWARD VOLTAGE, V F, (VOLTS) 3. 2.5 2. 1.5 1..5 RWARD VOLTAGE, V F, (VOLTS) 1..8.6.4.2.5 1. 1.5 2. 2.5 3. 3.5.2.4.6.8 1. 1 2 3 4 5 6 7 8 COLLECTOR-EMITTER VOLTAGE, V CE(sat), (VOLTS) EMITTER CURRENT, I E, (AMPERES) RWARD CURRENT, I F, (µa) 3/9 5
M815FP STANDBY CURRENT, I D, (ma) 1.2 1..8.6.4.2 STANDBY CURRENT VS. SUPPLY VOLTAGE CHARACTERISTICS T j = -4 C 13 14 15 16 17 SUPPLY VOLTAGE, V CC, (VOLTS) FLOATING BOOTSTRAP CURRENT, I FB, (ma).3.25.2.15.1.5 FLOATING BOOTSTRAP CHARACTERISTICS T j = -4 C 13 14 15 16 17 FLOATING BOOTSTRAP VOLTAGE, U FB, (VOLTS) SWITCHING TIME, t on,t off, (ns) 12 1 8 6 4 2 SWITCHING TIME VS. JUNCTI TEMPERATURE CHARACTERISTICS H V = 3V V CC = 15V I C =.5A t on t off -5-25 25 5 75 1 125 15 JUNCTI TEMPERATURE, T j, ( C) SUPPLY RESET VOLTAGE, V Duvr, SUPPLY TRIP VOLTAGE, V Duvt, (VOLTS) 1. 9.5 9. 8.5 8. 7.5 7. -5-25 SUPPLY VOLTAGE VS. JUNCTI TEMPERATURE CHARACTERISTICS V Duvr V Duvt 25 5 75 1 125 JUNCTI TEMPERATURE, T j, ( C) 15 FLOATING BOOTSTRAP RESET VOLTAGE, FB uvr, FLOATING BOOTSTRAP TRIP VOLTAGE, FB uvt, (VOLTS) 1. 9.5 9. 8.5 8. 7.5 7. -5-25 FLOATING BOOTSTRAP VOLTAGE VS. JUNCTI TEMPERATURE CHARACTERISTICS FB uvr FB uvt 25 5 75 1 125 JUNCTI TEMPERATURE, T j, ( C) 15 SWITCHING LOSS, P SW(on), (μj/pulse) 12 1 8 6 4 2-5 -25 SWITCHING LOSS () VS. JUNCTI TEMPERATURE CHARACTERISTICS I C = 1.A I C =.8A I C =.5A I C =.2A 25 5 75 1 125 JUNCTI TEMPERATURE, T j, ( C) 15 7 SWITCHING LOSS (OFF) VS. JUNCTI TEMPERATURE CHARACTERISTICS SWITCHING LOSS, P SW(off), (μj/pulse) 6 5 4 3 2 1 I C = 1.A I C =.8A I C =.5A I C =.2A -5-25 25 5 75 1 125 15 JUNCTI TEMPERATURE, T j, ( C) 6 3/9