fan73896 - 3-phase half-bridge gate-drive ic
TRANSCRIPT
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Š Semiconductor Components Industries, LLC, 2015
November, 2019 â Rev. 21 Publication Order Number:
FAN73896/D
3-Phase Half-BridgeGate-Drive IC
FAN73896
DescriptionThe FAN73896 is a monolithic threeâphase halfâbridge gateâdrive
IC designed for highâvoltage, highâspeed, driving MOSFETs andIGBTs operating up to +600 V.
ON Semiconductorâs highâvoltage process and commonâmodenoiseâcanceling technique provide stable operation of highâsidedrivers under highâdv/dt noise circumstances.
An advanced levelâshift circuit allows highâside gate driveroperation up to VS = â9.8 V (typical) for VBS = 15 V.
The protection functions include underâvoltage lockout and inverteroverâcurrent trip with an automatic faultâclear function. Overâcurrentprotection that terminates all six outputs can be derived from anexternal currentâsense resistor. An openâdrain fault signal is providedto indicate that an overâcurrent or underâvoltage shutdown hasoccurred. The UVLO circuits prevent malfunction when VDD and VBSare lower than the threshold voltage.
Output drivers typically source and sink 350 mA and 650 mA,respectively; which is suitable for threeâphase halfâbridgeapplications in motor drive systems.
Features⢠Floating Channel for Bootstrap Operation to +600 V
⢠Typically 350 mA/650 mA Sourcing/Sinking CurrentâDrivingCapability for All Channels
⢠Extended Allowable Negative VS Swing to â9.8 V for SignalPropagation at VDD = VBS = 15 V
⢠Output InâPhase with Input Signal
⢠OverâCurrent Shutdown Turns Off All Six Drivers
⢠Matched Propagation Delay for All Channels
⢠3.3 V and 5.0 V Input Logic Compatible
⢠Adjustable FaultâClear Timing
⢠Builtâin Advanced Input Filter
⢠Builtâin ShootâThrough Prevention Logic
⢠Builtâin Soft TurnâOff Function
⢠CommonâMode dv/dt NoiseâCanceling Circuit
⢠Builtâin UVLO Functions for All Channels
⢠This is a PbâFree Device
Table 1. COMPARISION TABLE
Part FAN73893MX FAN73894MX FAN73895MX FAN73896MX
INPUT Type Inverted Inverted Nonâinverted Nonâinverted
VDDUV+ / VBSUV+ (Min / Typ / Max) 7.5 / 8.5 / 9.3 [V] 10.2 / 11.2 / 12 [V] 7.5 / 8.5 / 9.3 [V] 10.2 / 11.2 / 12 [V]
VDDUVâ / VBSUVâ (Min / Typ / Max) 7 / 8 / 8.7 [V] 9.7 / 10.7 / 11.4 [V] 7 / 8 / 8.7 [V] 9.7 / 10.7 / 11.4 [V]
Note (Replacement forFAN73892MX)
â (Replacement forFAN7389MX1)
â
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SOICâ28, 300 milsCASE 751BMâ01
MARKING DIAGRAM
FAN73896 = Specific Device Code$Y = ON Semiconductor Logo&Z = Assembly Plant Code&2 = 2âDigit Date Code Format&K = 2âDigits Lot Run Traceability Code
See detailed ordering and shipping information on page 15 ofthis data sheet.
ORDERING INFORMATION
Pin 1
$Y&Z&2&KFAN73896
Applications⢠3âPhase Motor Inverter Driver
⢠Air Conditioner, Washing Machine, Refrigerator, Dish Washer
⢠Industrial Inverter â Sewing Machine, Power Tool
⢠GeneralâPurpose ThreeâPhase Inverter
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TYPICAL APPLICATION DIAGRAM
Figure 1. 3âPhase BLDC Motor Drive Application
3âPhaseBLDC MotorController
VMOTOR
VDD
CONTROL
Udn Vdn Wdn
Uup Vup Wup
Uup
Vup
Wup
Udn
Vdn
Wdn
3âPhase Inverter
VS1
VS2
VS3
VS1
VS2
VS3
CRCIN
RCS
FAN
7389
6MX
EN
VSS LO3
LIN1
VDD
VS1
HO1
VB1
HIN1
VS2
HO2
VB2
VS3
HO3
VB3
HIN2
HIN3
LIN2
LIN3
LO2
LO1
FO
CS
28
27
26
24
23
22
20
19
18
16
15
14
1
2
3
4
5
6
7
8
9
10
11
12
RCIN
UU
VU
WU
UL
VL
WL
13 COM
5 V line
INTERNAL BLOCK DIAGRAM
Figure 2. Functional Block Diagram
VDD
LO1
NOISECANCELLER
UVLO
RR
SQ
DELAY
VDD_UVLO
VS1
HO1
VB1
W Phase Driver
V Phase Driver
COM
U Phase Driver
LO2
VS2
VH
VB2
VB3
UHIN
ULIN
VDD
VHIN
VDD
WLIN
VDD
HIN1
HIN2
HIN3
LIN1
LIN2
LIN3
WHIN
INPUT NOISEFILTER
SHOOT THOUGHPREVENTION
DEADâTIME
ENABLE INPUTFILTER
FO
Protection Circuit
COM
EN
iRCIN
VREF
LO3
VS3
HO3
COM
0.5 V
CS
ENABLE
VRCIN,TH = 3.3 VVRCIN,HYS = 0.7 V
CS_COMP
LEBRCIN
3.3 V
ISOFT
ISOFT
ISOFT
SOFTâOFF
UVLO
VLIN
VSSâCOMLEVELSHIFTER
UVLO
VSS
LEB
LATCHS
R
Q
DR
IVE
R
PU
LSE
GE
NE
RAT
OR
100 kďż˝
10 kďż˝
10 kďż˝
10 kďż˝
10 kďż˝
10 kďż˝
10 kďż˝
50 kďż˝
50 kďż˝
50 kďż˝
50 kďż˝
50 kďż˝
150 kďż˝
DR
IVE
R
{TFLTIN = 250 ns}
{DT = 320 ns}
{TFLTEN = 250 ns}50 kďż˝
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PIN CONFIGURATION
VS
1
HO
1
VS
2
HO
2
VS
3
HO
3
RC
INEN
VS
S
CO
M
LO3
FAN73896MX
LIN
1
VD
DV
B1
HIN
1
VB
2
VB
3
HIN
2
HIN
3
LIN
2
LIN
3
LO2
LO1
28 27 26 25 24 23 22 21 20 19
1 2 3 4 5 6 7 8 9 10 11 12 13 14
18 17 16 15
NC
NC
NC
FO
CS
Figure 3. Pin Assignments
PIN DEFINITIONS
Pin Symbol Description
1 VDD Logic and lowâside gate driver power supply voltage
2 HIN1 Logic Input 1 for highâside gate 1 driver
3 HIN2 Logic Input 2 for highâside gate 2 driver
4 HIN3 Logic Input 3 for highâside gate 3 driver
5 LIN1 Logic Input 1 for lowâside gate 1 driver
6 LIN2 Logic Input 2 for lowâside gate 2 driver
7 LIN3 Logic Input 3 for lowâside gate 3 driver
8 FO Fault output with open drain (indicates overâcurrent and lowâside underâvoltage)
9 CS Analog input for overâcurrent shutdown
10 EN Logic input for shutdown functionality
11 RCIN An external RC network input used to define the faultâclear delay
12 VSS Logic ground
13 COM Lowâside driver return
14 LO3 Lowâside gate driver 3 output
15 LO2 Lowâside gate driver 2 output
16 LO1 Lowâside gate driver 1 output
17, 21, 25 NC No connect
18 VS3 Highâside driver 3 floating supply offset voltage
19 HO3 Highâside driver 3 gate driver output
20 VB3 Highâside driver 3 floating supply
22 VS2 Highâside driver 2 floating supply offset voltage
23 HO2 Highâside driver 2 gate driver output
24 VB2 Highâside driver 2 floating supply
26 VS1 Highâside driver 1 floating supply offset voltage
27 HO1 Highâside driver 1 gate driver output
28 VB1 Highâside driver 1 floating supply
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ABSOLUTE MAXIMUM RATINGS (TA = 25°C unless otherwise specified)
Symbol Parameter Min Max Unit
VS HighâSide Floating Offset Voltage VB1,2,3 â 25 VB1,2,3 + 0.3 V
VB HighâSide Floating Supply Voltage â0.3 625.0 V
VDD LowâSide and LogicâFixed supply voltage â0.3 25.0 V
VHO HighâSide Floating Output Voltage VHO1,2,3 VS1,2,3 â 0.3 VB1,2,3 + 0.3 V
VLO LowâSide Floating Output Voltage VLO1,2,3 â0.3 VDD + 0.3 V
VIN Input Voltage (HINx, LINx, CS, and EN) (Note 1) â0.3 5.5 V
VFO Fault Output Voltage (FO) â0.3 VDD + 0.3 V
dVS/dt Allowable Offset Voltage Slew Rate â Âą50 V/ns
PD Power Dissipation (Note 2, 3) â 1.4 W
ďż˝JA Thermal Resistance â 70 °C/W
TJ Junction Temperature â 150 °C
TSTG Storage Temperature â55 150 °C
Stresses exceeding those listed in the Maximum Ratings table may damage the device. If any of these limits are exceeded, device functionalityshould not be assumed, damage may occur and reliability may be affected.1. All input voltage (HINx, LINx, CS, and EN) are referenced to VSS and do not exceed maximum voltage rating.2. Mounted on 76.2 x 114.3 x 1.6 mm PCB (FRâ4 glass epoxy material). Refer to the following standards:
JESD51â2: Integral circuitâs thermal test method environmental conditions, natural convection;JESD51â3: Low effective thermal conductivity test board for leaded surfaceâmount packages.
3. Do not exceed maximum power dissipation (PD) under any circumstances.
RECOMMENDED OPERATING CONDITIONS
Symbol Parameter Min Max Unit
VB1,2,3 HighâSide Floating Supply Voltage VS1,2,3 + 10 VS1,2,3 + 20 V
VS1,2,3 HighâSide Floating Supply Offset Voltage 6 â VDD 600 V
VDD LowâSide and Logic Fixed Supply Voltage 12 20 V
VHO1,2,3 HighâSide Output Voltage VS1,2,3 VB1,2,3 V
VLO1,2,3 LowâSide Output Voltage COM VDD V
VFO Fault Output Voltage (FO) VSS VDD V
VCS CurrentâSense Pin Input Voltage VSS 5 V
VIN Logic Input Voltage (HIN1,2,3 and LIN1,2,3) VSS 5 V
COM LowâSide Driver Return â5 5 V
TA Ambient Temperature â40 +125 °C
Functional operation above the stresses listed in the Recommended Operating Ranges is not implied. Extended exposure to stresses beyondthe Recommended Operating Ranges limits may affect device reliability.
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ELECTRICAL CHARACTERISTICS (VBIAS (VDD, VBS1,2,3) = 15.0 V and TA = 25°C unless otherwise specified. The VIN and IINparameters are referenced to VSS and are applicable to all six channels. The VO and IO parameters are referenced to VS1,2,3 and COMand are applicable to the respective output leads: HO1,2,3 and LO1,2,3. The VDDUV parameters are referenced to VSS. The VBSUVparameters are referenced to VS1,2,3.)
Symbol Parameter Condition Min Typ Max Unit
LOWâSIDE POWER SUPPLY SECTION
IQDD Quiescent VDD Supply Current VLIN1,2,3 = 0 V or 5 V, EN = 0 V â 250 400 ďż˝A
IPDD Operating VDD Supply Current CLOAD = 1 nF, fLIN1,2,3 = 20 kHz,rms Value
â 550 750 ďż˝A
VDDUV+ VDD Supply UnderâVoltage PositiveâGoing Threshold VDD = Sweep 9.7 11.0 12.0 V
VDDUVâ VDD Supply UnderâVoltage NegativeâGoing Threshold VDD = Sweep 9.2 10.5 11.4 V
VDDHYS VDD Supply UnderâVoltage Lockout Hysteresis VDD = Sweep â 0.5 â V
BOOTSTRAPPED POWER SUPPLY SECTION
VBSUV+ VBS Supply UnderâVoltage PositiveâGoing Threshold VBS1,2,3 = Sweep 9.7 11.0 12.0 V
VBSUVâ VBS Supply UnderâVoltage NegativeâGoing Threshold VBS1,2,3 = Sweep 9.2 10.5 11.4 V
VBSHYS VBS Supply UnderâVoltage Lockout Hysteresis VBS1,2,3 = Sweep â 0.5 â V
ILK Offset Supply Leakage Current VB1,2,3 = VS1,2,3 = 600 V â â 10 ďż˝A
IQBS Quiescent VBS Supply Current VHIN1,2,3 = 0 V or 5 V, EN = 0 V 10 50 80 �A
IPBS Operating VBS Supply Current CLOAD = 1 nF, fHIN1,2,3 = 20 kHz,rms Value
200 320 480 �A
GATE DRIVER OUTPUT SECTION
VOH HighâLevel Output Voltage, VBIAS â VO IO = 0 mA (No Load) â â 100 mV
VOL LowâLevel Output Voltage, VO IO = 0 mA (No Load) â â 100 mV
IO+ Output HIGH ShortâCircuit Pulse Current (Note 4) VO = 15 V, VIN = 0 V with PW ⤠10 ďż˝s
250 350 â mA
IOâ Output LOW ShortâCircuit Pulsed Current (Note 4) VO = 0 V, VIN = 5 V with PW ⤠10 ďż˝s 500 650 â mA
VS Allowable Negative VS Pin Voltage for HIN Signal Propagation to HO
â â9.8 â9.0 V
LOGIC INPUT SECTION
VIH Logic â1â Input Voltage HIN1,2,3, LIN1,2,3 2.5 â â V
VIL Logic â0â Input Voltage HIN1,2,3, LIN1,2,3 â â 0.8 V
IIN+ Logic Input Bias Current (HO = LO = HIGH) VIN = 5 V 77 100 143 �A
IINâ Logic Input Bias Current (HO = LO = LOW) VIN = 0 V â â 2 ďż˝A
RIN Logic Input PullâUp Resistance 35 50 65 kďż˝
ENABLE CONTROL SECTION (EN)
VEN+ Enable PositiveâGoing Threshold Voltage 2.5 â â V
VENâ Enable NegativeâGoing Threshold Voltage â â 0.8 V
IEN+ Logic Enable â1â Input Bias Current VEN = 5 V (PullâDown = 150 kďż˝) 15 33 50 ďż˝A
IENâ Logic Enable â0â Input Bias Current VEN = 0 V â â 2 ďż˝A
REN Logic Input PullâDown Resistance 100 150 333 kďż˝
OVERâCURRENT PROTECTION SECTION
VCSTH+ OverâCurrent Detect Positive Threshold 450 500 550 mV
VCSTHâ OverâCurrent Detect Negative Threshold â 440 â mV
VCSHYS OverâCurrent Detect Hysteresis â 60 â mV
ICSIN ShortâCircuit Input Current VCSIN = 1 V 5 10 15 ďż˝A
ISOFT Soft TurnâOff Sink Current 25 40 55 mA
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ELECTRICAL CHARACTERISTICS (VBIAS (VDD, VBS1,2,3) = 15.0 V and TA = 25°C unless otherwise specified. The VIN and IINparameters are referenced to VSS and are applicable to all six channels. The VO and IO parameters are referenced to VS1,2,3 and COMand are applicable to the respective output leads: HO1,2,3 and LO1,2,3. The VDDUV parameters are referenced to VSS. The VBSUVparameters are referenced to VS1,2,3.) (continued)
Symbol UnitMaxTypMinConditionParameter
FAULT OUTPUT SECTION
VRCINTH+ RCIN PositiveâGoing Threshold Voltage 2.7 3.3 3.9 V
VRCINTHâ RCIN NegativeâGoing Threshold Voltage (Note 4) â 2.6 â V
VRCINHYS RCIN Hysteresis Voltage (Note 4) â 0.7 â V
IRCIN RCIN Internal Current Source CRCIN = 2 nF 3 5 7 �A
VFOL Fault Output Low Level Voltage VCS = 1 V, IFO = 1.5 mA â 0.2 0.5 V
RDSRCIN RCIN On Resistance IRCIN = 1.5 mA 50 75 100 ďż˝
RDSFO Fault Output On Resistance IFO = 1.5 mA 90 130 170 ďż˝
Product parametric performance is indicated in the Electrical Characteristics for the listed test conditions, unless otherwise noted. Productperformance may not be indicated by the Electrical Characteristics if operated under different conditions.4. These parameters are guaranteed by design.
DYNAMIC ELECTRICAL CHARACTERISTICS (TA = 25°C, VBIAS (VDD, VBS1,2,3) = 15.0 V, VS1,2,3 = COM, CRCIN = 2 nF, andCLoad = 1000 pF unless otherwise specified.)
Symbol Parameter Condition Min Typ Max Unit
tON TurnâOn Propagation Delay VLIN1,2,3 = VHIN1,2,3 = 5 V, VS1,2,3 = 0 V 350 500 650 ns
tOFF TurnâOff Propagation Delay VLIN1,2,3 = VHIN1,2,3 = 0 V, VS1,2,3 = 0 V 350 500 650 ns
tR TurnâOn Rise Time VLIN1,2,3 = VHIN1,2,3 = 5 V 20 50 100 ns
tF TurnâOff Fall Time VLIN1,2,3 = VHIN1,2,3 = 0 V 10 30 80 ns
tEN Enable LOW to Output Shutdown Delay 400 500 600 ns
tCSBLT CS Pin LeadingâEdge Blanking Time 400 650 850 ns
tCSFO Time from CS Triggering to FO From VCSC = 1 V to FO TurnâOff â 850 1300 ns
tCSOFF Time from CS Triggering to LowâSide Gate Outputs TurnâOff
From VCSC = 1 V to Starting Gate TurnâOff
â 850 1300 ns
tFLTIN Input Filtering Time (Note 5) (HINx, LINx, EN) 170 250 330 ns
tFLTCLR FaultâClear Time â 1.30 2.35 ms
DT Dead Time 230 320 400 ns
MDT DeadâTime Matching (All Six Channels) (Note 6) â â 50 ns
MT Delay Matching (All Six Channels) (Note 7) â â 50 ns
PM Output PulseâWidth Matching (Note 8) PWIN > 1 ďż˝s â 50 100 ns
5. The minimum width of the input pulse should exceed 500 ns to ensure the filtering time of the input filter is exceeded.6. MDT is defined as | DT1-DT2 | referenced to 0.7. MT is defined as an absolute value of matching delay time between Highâside and Lowâside.8. PM is defined as an absolute value of matching pulseâwidth between Input and Output.
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TYPICAL CHARACTERISTICS
â40 â20 0 20 40 60 80 100 1200
10
20
30
40
50
60
70
80
â40 â20 0 20 40 60 80 100 12020
30
40
50
60
70
80
90
100
HighâSide LowâSide
â40 â20 0 20 40 60 80 100 120350
400
450
500
550
600
650
HighâSide LowâSide
â40 â20 0 20 40 60 80 100 120350
400
450
500
550
600
650
â40 â20 0 20 40 60 80 100 120400
450
500
550
600
â40 â20 0 20 40 60 80 100 1201.0
1.2
1.4
1.6
1.8
2.0
Temperature [°C] Temperature [°C]
Temperature [°C] Temperature [°C]
Temperature [°C] Temperature [°C]
t ON
[ns]
t OF
F [n
s]
t R [n
s]
t F [n
s]
t EN
[ns]
t FLT
CLR
[ms]
HighâSide LowâSide
Figure 4. TurnâOn Propagation Delay vs. Temperature
Figure 5. TurnâOff Propagation Delay vs. Temperature
Figure 6. TurnâOn Rise Time vs. Temperature Figure 7. TurnâOff Fall Time vs. Temperature
Figure 8. Enable LOW to Output Shutdown Delay vs. Temperature
Figure 9. FaultâClear Time vs. Temperature
HighâSide LowâSide
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TYPICAL CHARACTERISTICS (continued)
â40 â20 0 20 40 60 80 100 120200
250
300
350
400
DT1 DT2
â40 â20 0 20 40 60 80 100 120â50
â25
0
25
50
â40 â20 0 20 40 60 80 100 120â50
â40â30
â20â10
01020304050
MTONMTOFF
â40 â20 0 20 40 60 80 100 120â13
â12
â11
â10
â9
â8
â7
â40 â20 0 20 40 60 80 100 12050
100
150
200
250
300
350
400
â40 â20 0 20 40 60 80 100 1200
20
40
60
80
100
Temperature [°C] Temperature [°C]
Temperature [°C] Temperature [°C]
Temperature [°C] Temperature [°C]
DT
[ns]
MD
T [n
s]
Del
ay M
atch
ing
[ns]
VS [V
]
I QD
D [ďż˝
A]
I QB
S [ďż˝
A]
Figure 10. Dead Time vs. Temperature Figure 11. DeadâTime Matching vs. Temperature
Figure 12. Delay Matching vs. Temperature Figure 13. Allowable Negative VS Voltage vs. Temperature
Figure 14. Quiescent VDD Supply Current vs. Temperature
Figure 15. Quiescent VBS Supply Current vs. Temperature
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TYPICAL CHARACTERISTICS (continued)
9.5
10.0
10.5
11.0
11.5
VB
SU
Vâ
[V]
VB
SU
V+ [V
]
VD
DU
Vâ
[V]
â40 â20 0 20 40 60 80 100 120100
200
300
400
500
600
700
â40 â20 0 20 40 60 80 100 120100
200
300
400
500
600
700
â40 â20 0 20 40 60 80 100 12010.0
10.5
11.0
11.5
12.0
â40 â20 0 20 40 60 80 100 120
â40 â20 0 20 40 60 80 100 12010.0
10.5
11.0
11.5
12.0
â40 â20 0 20 40 60 80 100 1209.5
10.0
10.5
11.0
11.5
Temperature [°C] Temperature [°C]
Temperature [°C] Temperature [°C]
Temperature [°C] Temperature [°C]
I PD
D [ďż˝
A]
I PB
S [ďż˝
A]
VD
DU
V+ [V
]
Figure 16. Operating VDD Supply Current vs. Temperature
Figure 17. Operating VBS Supply Current vs. Temperature
Figure 18. VDD UVLO+ vs. Temperature Figure 19. VDD UVLOâ vs. Temperature
Figure 20. VBS UVLO+ vs. Temperature Figure 21. VBS UVLOâ vs. Temperature
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TYPICAL CHARACTERISTICS (continued)
HighâSide LowâSide
â40 â20 0 20 40 60 80 100 1200.0
0.5
1.0
1.5
2.0
â40 â20 0 20 40 60 80 100 1200
4
8
12
16
20
â40 â20 0 20 40 60 80 100 1200
4
8
12
16
20 HighâSide LowâSide
â40 â20 0 20 40 60 80 100 1201.0
1.5
2.0
2.5
3.0
â40 â20 0 20 40 60 80 100 1200.5
1.0
1.5
2.0
2.5
3.0
â40 â20 0 20 40 60 80 100 12060
80
100
120
140
160
I INâ
[�A
]
I IN+ [ďż˝
A]
VIL
[V]
Temperature [°C] Temperature [°C]
Temperature [°C] Temperature [°C]
Temperature [°C] Temperature [°C]
VO
H [m
V]
VO
L [m
V]
VIH
[V]
Figure 22. HighâLevel Output Voltage vs. Temperature
Figure 23. LowâLevel Output Voltage vs. Temperature
Figure 24. Logic HIGH Input Voltage vs. Temperature
Figure 25. Logic LOW Input Voltage vs. Temperature
Figure 26. Logic Input HIGH Bias Current vs. Temperature
Figure 27. Logic Input LOW Bias Currentvs. Temperature
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TYPICAL CHARACTERISTICS (continued)
12 14 16 18 20
I IQB
S [ďż˝
A]
RE
N [k
ďż˝]
100
200
300
400
500
600
700
10 12 14 16 18 200
20
40
60
80
100
10 12 14 16 18 20100
120
140
160
180
200
10 12 14 16 18 2050
100
150
200
250
300
350
400
10 12 14 16 18 200
20
40
60
80
100
12 14 16 18 20100
200
300
400
500
600
700
Supply Voltage [V] Supply Voltage [V]
Supply Voltage [V] Supply Voltage [V]
Supply Voltage [V] Supply Voltage [V]
I PB
S [ďż˝
A]
I PD
D [ďż˝
A]
RIN
[kďż˝
]I IQ
DD
[�A
]
Figure 28. Input PullâDown Resistance vs. Supply Voltage
Figure 29. Enable Pin PullâDown Resistance vs. Supply Voltage
Figure 30. Quiescent VDD Supply Current vs. Supply Voltage
Figure 31. Quiescent VBS Supply Current vs. Supply Voltage
Figure 32. Operating VDD Supply Current vs. Supply Voltage
Figure 33. Operating VBS Supply Current vs. Supply Voltage
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SWITCHING TIME DEFINITIONS
A B C D F
HINx
LINx
EN
CS
VRCIN
HOx
LOx
ShootâThroughPrevent OverâCurrent
Protection
Shutdown Shutdown
FO
E
ShootâThroughPrevent
50%
90%
50%
t ON
10% 10%
90%
HOx(LOx)
HINx
(LINx)
t R t OFF t F
Figure 34. Switching Time Waveform Definitions
Figure 35. Input / Output Timing Diagram
Figure 36. Detailed View of B and C Intervals During OverâCurrent Protection
t CSFO
50% 50%
90%
VRCIN,TH
VCS,TH+ VCS,TH+
t FLTCLR
t CSOFF
Interval B Interval C
CS
VRCIN
AnyOutput
FO
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APPLICATIONS INFORMATION
Dead TimeDead time is automatically inserted whenever the dead
time of the external two input signals (between HINx andLINx signals) is shorter than internal fixed dead times (DT1and DT2). Otherwise, external dead times larger thaninternal dead times are not modified by the gate driver andinternal deadâtime waveform definition is shown inFigure 37.
Figure 37. Internal DeadâTime Definitions
HOx
HINx
50%
50% 50%
50%
LINx
LOx
DT1 DT2
50% 50%
Protection Function
Fault Out (FO) and UnderâVoltage LockoutThe highâ and lowâside drivers include underâvoltage
lockout (UVLO) protection circuitry that monitors thesupply voltage for VDD and VBS independently. It can bedesigned to prevent malfunction when VDD and VBS arelower than the specified threshold voltage. The UVLOhysteresis prevents chattering during powerâsupplytransitions. Moreover, the fault signal (power supply voltageFO) goes to LOW state to operate reliably during powerâonevents when the power supply (VDD) is below theunderâvoltage lockout high threshold voltage for the circuit(during t1~t2). The UVLO circuit is not otherwise activated;shown Figure 38.
Figure 38. Waveforms for UnderâVoltage Lockout
VRCINTH+
UVLO+VDD
LO
FO
UVLOâ
t1 t3t2t0 t4
VDD < 3.5 V
Lower Voltage
Lower Voltage
RCIN
ShootâThrough ProtectionThe shootâthrough protection circuitry prevents both
highâ and lowâside switches from conducting at the sametime, as shown Figure 39.
Figure 39. ShootâThrough Protection
After DT
LOx
HOx
After DT
ShootâThroughPrevent
HINx
LINx
Example A
Example B
LOx
HOx
ShootâThroughPrevent
HINx
LINx
An interlock function is a device used to prevent bothhighâ and lowâside switches from conducting at the sametime as shown in Figure 40. In most applications an interlockis used to help prevent a device from harming its operator ordamaging itself by when two input signals of a same leg areactivated simultaneously, only one output is activated.
HINx
LINx
HOx
LOx
S1 S2 S3 S4 S5
Figure 40. Interlock Function
âS1 : Highâside first First input output modeâS2 : Lowâside noise No LOx output modeâS3 : Highâside noise No HOx output modeâS4 : Lowâside first First input output modeâS5 : Inâphase mode No HOx output
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Enable InputWhen the EN pin is in HIGH state, the gate driver operates
normally. When a condition occurs that should shut downthe gate driver, the EN pin should be LOW. The enablecircuitry has an input filter; the minimum input duration isspecified by tFLTIN (typically 250 ns).
Figure 41. Output Enable Timing Waveform
90%
50%
t EN
HOxLOx
EN
FaultâOut (FO) and OverâCurrent ProtectionFAN73896 provides an integrated fault output (FO) and
an adjustable faultâclear timer (tFLTCLR). There are twosituations that cause the gate driver to report a fault via theFO pin. The first is an underâvoltage condition of lowâsidegate driver supply voltage (VDD) and the second is when thecurrentâsense pin (CS) recognizes a fault. If a fault conditionoccurs, the FO pin is internally pulled to COM, thefaultâclear timer is activated, and all outputs (HO1, 2, 3 andLO1, 2, 3) of the gate driver are turned off. The fault outputstays LOW until the fault condition has been removed andthe faultâclear timer expires. Once the faultâclear timerexpires, the voltage on the FO pin returns to pullâup voltage.
The faultâclear time (tFLTCLR) is determined by aninternal current source (IRCIN = 5 ďż˝A) and an external CRCINat the RCIN pin, as shown as:
tFLTCLR ďż˝
CRCIN ďż˝ VRCIN,TH
IRCIN
[s](eq. 1)
The RDSRCIN of the MOSFET is a characteristic dischargecurve with respect to the external capacitor CRCIN. The timeconstant is defined by the external capacitor CRCIN and theRDSRCIN of the MOSFET.
The output of currentâsense comparator (CS_COMP)passes a noise filter, which inhibits an overâcurrentshutdown caused by parasitic voltage spikes of VCS.
This corresponds to a voltage level at the comparator ofVCSTH+ â VCSHYS = 500 mV â 60 mV = 440 mV, whereVCSHYS = 60 mV is the hysteresis of the current comparator(CS_COMP), as shown in Figure 42.
Figure 42. OverâCurrent Protection
Protection Circuit
iRCIN
VREF
0.5 V
CS
Fault
VRCIN,TH = 3.3 VVRCIN,HYS = 0.7 V
CS_COMP
LEBRCIN
3.3 V
ISOFT
LatchS
R
Q
VDD_UVLO
To low side outputVDD
RFO
CRCIN
EN
InputStage ON
To COM
LEB
VSS
SOFTâOFF
FO
100 kďż˝
150 kďż˝
Figure 43 shows the waveform definitions of RCIN, FO,and the lowâside driver; which uses a soft turnâoff methodwhen an underâvoltage condition of the lowâside gate driversupply voltage (VDD) or the currentâsense pin (CS)recognizes a fault. If a fault condition occurs, the FO Pin isinternally pulled to COM and all outputs (HO1, 2, 3 andLO1, 2, 3) of the gate driver are turned off. Lowâside outputsdecline linearly by the internal sink current source(ISOFT = 40 mA) for soft turnâoff, as shown in Figure 43.
Figure 43. RCIN and FaultâClear Waveform Definition
90%
tCSBLT
tCSFO
tCSOFF
VCSC
LO
FOtFLTCLR
LINx
VRCINTH+VRCIN
Leading EdgeBranking Time
500 mV440 mV
Noise Filter
Input Noise FilterFigure 44 shows the input noise filter method, which has
symmetry duration between the input signal (tINPUT) and theoutput signal (tOUTPUT) and helps to reject noise spikes andshort pulses. This input filter is applied to the HINx, LINx,and EN inputs. The upper pair of waveforms (Example A)shows input signal duration (tINPUT) much longer than inputfilter time (tFLTIN); it is approximately the same durationbetween the input signal time (tINPUT) and the output signaltime (tOUTPUT). The lower pair of waveforms (Example B)shows an input signal time (tINPUT) slightly longer thaninput filter time (tFLTIN); it is approximately the sameduration between input signal time (tINPUT) and the outputsignal time (tOUTPUT).
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Figure 44. Input Noise Filter Definition
OUTx
Exa
mpl
e B
Exa
mpl
e A
t FLTININx
OUTx
t FLTININx
t INPUT
t OUTPUT
t INPUT
t OUTPUT Output duration issame as input duration
ShortâPulsed Input Noise Rejection MethodThe input filter circuitry provides protection against
shortâpulsed input signals (HINx, LINx and EN) on theinput signal lines by applied noise signal.
If the input signal duration is less than input filter time(tFLTIN), the output does not change states.
Example A and B of the Figure 45 show the input andoutput waveforms with shortâpulsed noise spikes with aduration less than input filter time; the output does notchange states.
Figure 45. Noise Rejecting Input Filter Definition
OUTx
OUTx
t FLTIN t FLTIN t FLTIN
t FLTIN t FLTIN t FLTIN
(LOW)
(HIGH)
INx
INx
Exa
mpl
e B
Exa
mpl
e A
Figure 46 shows the characteristics of the input filterswhile receiving narrow ON and OFF pulses. If input signalpulse duration, PWIN, is less than input filter time, tFLTIN;the output pulse, PWOUT, is zero. The input signal is rejectedby input filter. Once the input signal pulse duration, PWIN,exceeds input filter time, tFLTIN, the output pulse durations,PWOUT, matches the input pulse durations, PWIN.FAN73896 input filter time, tFLTIN, is about 250 ns for thehighâ and lowâside outputs.
Figure 46. Input Filter Characteristic of Narrow ON
200
100
300
500
400
600
700
800
900
1000
0
Out
put P
ulse
Wid
th [n
s]
200100 300 500400
Input Pulse Output Pulse
700600 800 1000900
Input Pulse Width [ns]
ORDERING INFORMATION
Part Number Package Operating Temperature Shippingâ
FAN73896MX (Note 9) 28âLead, Small OutlineIntegrated Circuit, (SOIC)
(PbâFree)
â40 to +125°C 1000 / Tape & Reel
â For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel PackagingSpecifications Brochure, BRD8011/D.
9. These devices passed waveâsoldering test by JESD22Aâ111.
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SOICâ28, 300 milsCASE 751BMâ01
ISSUE ODATE 19 DEC 2008
L
h h
E
PIN #1
IDENTIFICATION
D
A1 c�1
b e
E1
AA2
TOP VIEW
SIDE VIEW END VIEW
�1
Notes:(1) All dimensions are in millimeters. Angles in degrees.
(2) Complies with JEDEC MS-013.
ďż˝
SYMBOL MIN NOM MAX
θ
A
A1
b
c
D
E
E1
e
h
0Âş 8Âş
0.10
0.31
0.20
0.25
17.78
10.11
7.34
1.27 BSC
2.65
0.30
0.51
0.33
0.75
18.03
10.51
7.60
L 0.40 1.27
2.35
A2 2.05 2.55
θ1 5º 15º
MECHANICAL CASE OUTLINE
PACKAGE DIMENSIONS
ON Semiconductor and are trademarks of Semiconductor Components Industries, LLC dba ON Semiconductor or its subsidiaries in the United States and/or other countries.ON Semiconductor reserves the right to make changes without further notice to any products herein. ON Semiconductor makes no warranty, representation or guarantee regardingthe suitability of its products for any particular purpose, nor does ON Semiconductor assume any liability arising out of the application or use of any product or circuit, and specificallydisclaims any and all liability, including without limitation special, consequential or incidental damages. ON Semiconductor does not convey any license under its patent rights nor therights of others.
98AON34296EDOCUMENT NUMBER:
DESCRIPTION:
Electronic versions are uncontrolled except when accessed directly from the Document Repository.Printed versions are uncontrolled except when stamped âCONTROLLED COPYâ in red.
PAGE 1 OF 1SOICâ28, 300 MILS
Š Semiconductor Components Industries, LLC, 2019 www.onsemi.com
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