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M81706AFP
Powerex, Inc., 200 E. Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
HVIC
High Voltage Half-Bridge Driver 600 Volts/+120mA/-250mA
8
5
D E
RECOMMENDED MOUNT PAD T R
AC S
1
4
DETAIL "A"
B DETAIL "A" DETAIL "B" F E G K M H N L J DETAIL "B" 1 2 3 4 Q P PIN NUMBER VCC HIN LIN GND 8 7 6 5 VB HO VS LO
Description: M81706AFP is a high voltage Power MOSFET and IGBT module driver for half-bridge applications. Features: Shoot Through Interlock High Voltage Level Shift Output Current +120/-250mA Half-Bridge Driver SOP-8 Package Applications: HID Ballast PDP MOSFET Driver IGBT Driver Inverter Module Control Ordering Information: M81706AFP is a +120/-250mA, 600 Volt HVIC, High Voltage Half-Bridge Driver
8 VB VREG HV LEVEL SHIFT UV DETECT FILTER INTER LOCK PULSE GEN UV DETECT FILTER LIN 3 VREG/VCC LEVEL SHIFT DELAY RQ R S 7 HO
HIN 2
VREG/VCC LEVEL SHIFT
6 VS
1 VCC
5 LO
4 GND
Outline Drawing and Circuit Diagram Dimensions A B C D E F G H J Inches 0.240.01 0.20.008 0.170.008 0.08 Max. 0.05 0.0150.002 0.004 0.06 0.002 Min. Millimeters 6.20.3 5.00.2 4.40.2 1.9 Max. 1.27 0.40.05 0.1 1.5 0.05 Min. Dimensions K L M N P Q R S T Inches 0.04 0.0150.008 0.0060.002 10 Max. 0.03 0.023 0.05 Min. 0.23 0.76 Millimeters 0.9 0.40.2 0.150.05 10 Max. 0.745 0.595 1.27 Min. 5.72 0.76
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Powerex, Inc., 200 E. Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272 M81706AFP HVIC, High Voltage Half-Bridge Driver 600 Volts/+120mA/-250mA
Absolute Maximum Ratings, Ta = 25C unless otherwise specified
Characteristics High Side Floating Supply Absolute Voltage High Side Floating Supply Offset Voltage High Side Floating Supply Voltage (VBS = VB - VS) High Side Output Voltage Low Side Fixed Supply Voltage Low Side Output Voltage Logic Input Voltage (HIN, LIN) Package Power Dissipation (Ta = 25C, On Board) Linear Derating Factor (Ta > 25C, On Board) Junction to Case Thermal Resistance Junction Temperature Operation Temperature Storage Temperature Symbol VB VS VBS VHO VCC VLO VIN Pd K Rth(j-c) Tj Topr Tstg M81706AFP -0.5 ~ 624 VB-24 ~ VB+0.5 -0.5 ~ 24 VS-0.5 ~ VB+0.5 -0.5 ~ 24 -0.5 ~ VCC+0.5 -0.5 ~ VCC+0.5 0.6 6.0 50 -20 ~ 125 -20 ~ 100 -40 ~ 125 Units Volts Volts Volts Volts Volts Volts Volts Watts mW/C C/W C C C
Recommended Operating Conditions
Characteristics High Side Floating Supply Absolute Voltage High Side Floating Supply Offset Voltage High Side Floating Supply Voltage High Side Output Voltage Low Side Fixed Supply Voltage Logic Supply Voltage Logic Input Voltage Symbol VB VS VBS VHO VCC VLO VIN HIN, LIN VB = VB - VS Test Conditions Min. VS+10 0 10 VS 10 0 0 Typ. -- -- -- -- -- -- -- Max. VS+20 500 20 VB 20 VCC VCC Units Volts Volts Volts Volts Volts Volts Volts
Electrical Characteristics Ta = 25C, VCC = VBS (= VB - VS) = 15V unless otherwise specified
Characteristics Floating Supply Leakage Current VBS Standby Current VCC Standby Current High Level Output Voltage Low Level Output Voltage High Level Input Threshold Voltage Low Level Input Threshold Voltage High Level Input Bias Current Low Level Input Bias Current VBS Supply UV Reset Voltage VBS Supply UV Trip Voltage VBS Supply UV Hysteresis Voltage VBS Supply UV Filter Time VCC Supply UV Reset Voltage 2 Symbol IFS IBS ICC VOH VOL VIH VIL IIH IIL VBSuvr VBSuvt VBSuvh tVBSuv VCCuvr Test Conditions VB = VS = 600V HIN = LIN = 0V HIN = LIN = 0V IO = -20mA, LO, HO IO = 20mA, LO, HO HIN, LIN HIN, LIN VIN = 5V VIN = 0V Min. -- -- 0.2 13.6 -- 2.7 -- -- -- 8.0 7.4 0.5 -- 8.0 Typ. -- 0.2 0.5 14.2 0.3 -- -- 5 -- 8.9 8.2 0.7 7.5 8.9 Max. 1.0 0.5 1.0 -- 0.6 -- 0.8 20 2.0 9.8 9.0 -- -- 9.8 Units A mA mA Volts Volts Volts Volts A A Volts Volts Volts s Volts 6/05
Powerex, Inc., 200 E. Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272 M81706AFP HVIC, High Voltage Half-Bridge Driver 600 Volts/+120mA/-250mA
Electrical Characteristics Ta = 25C, VCC = VBS (= VB - VS) = 15V unless otherwise specified
Characteristics VBS Supply UV Trip Voltage VCC Supply UV Hysteresis Voltage VCC Supply UV Filter Time Output High Level Short Circuit Pulsed Current Output Low Level Short Circuit Pulsed Current Output High Level ON Resistance Output Low Level ON Resistance High Side Turn-On Propagation Delay High Side Turn-Off Propagation Delay High Side Turn-On Rise Time High Side Turn-Off Fall Time LowSide Turn-On Propagation Delay Low Side Turn-Off Propagation Delay Low Side Turn-On Rise Time Low Side Turn-Off Fall Time Delay Matching, High Side and Low Side Turn-On Delay Matching, High Side and Low Side Turn-Off Symbol VCCuvt VCCuvh tVCCuv IOH IOL ROH ROL tdLH(HO) tdHL(HO) trH tfH tdLH(LO) tdHL(LO) trL tfL tdLH tdHL VO = 0V, VIN = 5V, PW < 10s VO = 15V, VIN = 0V, PW < 10s IO = -20mA, ROH = (VOH - VO)/IO IO = 20mA, ROL = VO /IO CL = 1000pF between HO - VS CL = 1000pF between HO - VS CL = 1000pF between HO - VS CL = 1000pF between HO - VS CL = 1000pF between LO - GND CL = 1000pF between LO - GND CL = 1000pF between LO - GND CL = 1000pF between LO - GND | tdLH(HO) - tdLH(LO) | | tdHL(HO) - tdHL(LO) | Test Conditions Min. 7.4 0.5 -- 120 250 -- -- -- -- -- -- -- -- -- -- -- -- Typ. 8.2 0.7 7.5 200 350 40 15 120 170 130 50 120 170 130 50 0 0 Max. 9.0 -- -- -- -- 70 30 240 280 220 80 240 280 220 80 30 30 Units Volts Volts s mA mA ns ns ns ns ns ns ns ns ns ns
THERMAL DERATING FACTOR CHARACTERISTICS
0.8
PACKAGE POWER DISSIPATION, Pd, (WATTS)
0.6
0.4
0.2
0
0
25
50
75
100
125
TEMPERATURE, (C)
FUNCTION TABLE (X : HORL) HIN LIN VBS UV VCC UV L L H H L H H H H L H H H H H H X L L H X H L H L X H L H X H L
HO L L H L L L L L
LO L H L L L H L L
Behavorial State LO = HO = Low LO = High HO = High LO = HO = Low LO = Low, VBS UV Tripped LO = High, VBS UV Tripped LO = Low, VCC UV Tripped HO = LO = Low, VCC UV Tripped
NOTE: "L" state of VBS UV, VCC UV means that UV trip voltage. In the case of both input signals (HIN and LIN) are "H", output signals (HO and LO) become "L".
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Powerex, Inc., 200 E. Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272 M81706AFP HVIC, High Voltage Half-Bridge Driver 600 Volts/+120mA/-250mA
TIMING DIAGRAM 1. Input/Output Timing Diagram HIGH ACTIVE - When input signal (HIN or LIN) is "H", then output signal (HO or LO) is "H". In the case of both input signals (HIN and LIN) are "H", then output signals (HO and LO) become "L".
HIN LIN HO LO 2. VCC(VBS) Supply Under Voltage Lockout Timing Diagram When VCC supply voltage keeps lower UV trip voltage (VCCuvt = VCCuvr - VCCuvh) for VCC supply UV filter time, output signal becomes "L". And then, when VCC supply voltage is higher than UV reset voltage, output signal LO becomes "H". VCC VCCuvt tVCCuv LO LIN
When VCC supply voltage keeps lower UV trip voltage (VCCuvt = VCCuvr - VCCuvh) for VCC supply UV filter time, output signal becomes "L". And then, when VCC supply voltage is higher than UV reset voltage, input signal (LIN) is "L"; output signal HO becomes "H". VBS(H) LIN(L) VCC VCCuvt tVCCuv HO HIN When VBS supply voltage keeps lower UV trip voltage (VBSuvt = VBSuvr - VBSuvh) for VBS supply UV filter time, output signal becomes "L". And then, VBS supply voltage is higher than UV reset voltage, output signal HO keeps "L" until next input signal HIN is "H". VBS VBSuvt tVBSuv HO HIN VBSuvh VBSuvr VCCuvh VCCuvr
VCCuvh VCCuvr
3. Allowable Supply Voltage Transient It is recommended supplying VCC first and VBS second. In the case of shutting off supply voltage, shut off VBS first and shut off VCC second. At the time of starting VCC and VBS, power supply should be increased slowly. If it is increased rapidly, output signal (HO or LO) may be "H". Note: This device has high voltage between closely spaced pins. In most applications, supplemental insulation will be required.
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