Powerex, Inc., 200 E. Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272 HVIC
High Voltage Integrated Circuit
600 Volts/+150mA/-125mA
M81705FP
1
Description:
M81705FP is a high voltage Power
MOSFET and IGBT module driver
for half-bridge applications.
Features:
£ Floating Supply Voltage
£ Output Current
£ Half-Bridge Driver
£ SOP-8
Applications:
£ HID
£ PDP
£ MOSFET Driver
£ IGBT Driver
£ Inverter Module Control
Ordering Information:
M81705FP is a ±150/-125mA,
600 Volt HVIC, High Voltage
Integrated Circuit
Outline Drawing and Circuit Diagram
Dimensions Inches Millimeters
A 0.25 6.5
B 0.21 5.2
C 0.18 4.6
D 0.08 1.9
E 0.05 1.27
F 0.02 0.5
G 0.004 0.1
H 0.06 1.5
J 0.002 0.05
Dimensions Inches Millimeters
K 0.04 0.9
L 0.03 0.6
M 0.008 0.2
N 10° 10°
P 0.023 0.595
Q 0.03 0.745
R 0.05 1.27
S 0.23 5.72
T 0.76 0.76
RECOMMENDED MOUNT PAD
A
8
C
D
E
S
T
R
H J
N
L
MP
Q
B
E
F
G
K
DETAIL "A"
DETAIL "A"
DETAIL
"B"
DETAIL "B"
5
1 4
PIN NUMBER
1 NC 8 NC
2 VCC 7 VB
3 IN 6 OUT
4 GND 5 VS
HV
LEVEL
SHIFT
INTER
LOCK
UV DETECT
FILTER
S
R Q
R
VCC
IN
2
VB
OUT
VS
GND
7
6
5
4
3
VREG
PULSE
GEN
M81705FP
HVIC, High Voltage Integrated Circuit
600 Volts/+150mA/-125mA
2
Powerex, Inc., 200 E. Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
Absolute Maximum Ratings, Ta = 25°C unless otherwise specified
Characteristics Symbol M81705FP Units
High Side Floating Supply Absolute Voltage VB -0.5 ~ 624 Volts
High Side Floating Supply Offset Voltage VS VB-24 ~ VB+0.5 Volts
High Side Floating Supply Voltage (VBS = VBVS) VBS -0.5 ~ 24 Volts
High Side Output Voltage VOUT VS-0.5 ~ VB+0.5 Volts
Low Side Fixed Supply Voltage VCC -0.5 ~ 24 Volts
Logic Input Voltage VIN -0.5 ~ 5.5 Volts
Allowable Offset Supply Voltage Transient dVS/dt ±50 V/ns
Package Power Dissipation (Ta = 25°C, On Board) Pd 0.60 Watts
Linear Derating Factor (Ta > 25°C, On Board) K
θ
-6.0 mW/°C
Junction to Case Thermal Resistance Rth(j-c) 50 °C/W
Junction Temperature Tj -20 ~ 125 °C
Operation Temperature T
opr -20 ~ 100 °C
Storage Temperature Tstg -40 ~ 125 °C
Recommended Operating Conditions
Characteristics Symbol Test Conditions Min. Typ. Max. Units
High Side Floating Supply Absolute Voltage VB VS +13.5 VS +20 Volts
High Side Floating Supply Offset Voltage VS VB > 13.5V -5 500 Volts
High Side Floating Supply Voltage VBS VB = VB – VS 13.5 20 Volts
Low Side Fixed Supply Voltage VCC 13.5 20 Volts
Logic Input Voltage VIN 0 5 Volts
0.2
0.6
0.8
THERMAL DERATING FACTOR
CHARACTERISTICS
TEMPERATURE, (°C)
PACKAGE POWER DISSIPATION, Pd, (WATTS)
0 25 75 100 125
0
0.4
50
3
M81705FP
HVIC, High Voltage Integrated Circuit
600 Volts/+150mA/-125mA
Powerex, Inc., 200 E. Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
Electrical Characteristics
Ta = 25°C, VCC = VBS (= VB – VS) = 15V unless otherwise specified
Characteristics Symbol Test Conditions Min. Typ.* Max. Units
Floating Supply Leakage Current IFS VB = VS = 600V 1.0 µA
VBS Standby Current IBS 0.25 0.50 0.75 mA
VCC Standby Current ICC 0.50 0.75 1.00 mA
High Level Output Voltage VOH IO = 0A 14.9 Volts
Low Level Output Voltage VOL IO = 0A 0.1 Volts
High Level Input Threshold Voltage VIH 2.5 3.0 4.0 Volts
Low Level Input Threshold Voltage VIL 0.8 1.5 2.0 Volts
High Level Input Bias Current IIH VIN = 5V -50 -20 µA
Low Level Input Bias Current IIL VIN = 0V -200 -100 µA
VBS Supply UV Reset Voltage VBSuvr 10.5 11.5 12.5 Volts
VBS Supply UV Hysteresis Voltage VBSuvh 0.2 0.5 0.8 Volts
VBS Supply UV Filter Time tVBSuv 5 µs
Output High Level Short Circuit IOH VO = 0V, VIN = 0V, PW < 10µs -125 mA
Pulsed Current
Output Low Level Short Circuit IOL1 VO = 1V, VIN = 5V, PW < 10µs 40 mA
Pulsed Current
Output Low Level Short Circuit IOL2 VO = 15V, VIN = 5V, PW < 10µs 150 mA
Pulsed Current
Output High Level ON Resistance ROH IO = -100mA, ROH = (VOH – VO)/IO 120 160 Ω
Output Low Level ON Resistance1 ROL1 VO = 1V, ROL1 = VO /IO 50 60 Ω
Output Low Level ON Resistance2 ROL2 VO = 5V, ROL2 = VO /IO 100 130 Ω
High Side Turn-On Propagation Delay tdLH CL = 1000pF between OUT – VS 100 500 ns
High Side Turn-Off Propagation Delay tdHL CL = 1000pF between OUT – VS 100 500 ns
High Side Turn-On Rise Time tr CL = 1000pF between OUT – VS 220 ns
High Side Turn-Off Fall Time tf CL = 1000pF between OUT – VS 110 ns
ROL1/ROL2 Switching Output Voltage VOth 1.5 2.5 4.0 Volts
*Typical is not specified.
M81705FP
HVIC, High Voltage Integrated Circuit
600 Volts/+150mA/-125mA
4
Powerex, Inc., 200 E. Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
1.0
0.8
0.6
0.4
0.2
12 2115 18 24
LOW SIDE FLOATING SUPPLY VOLTAGE, VCC, (VOLTS)
VCC STANDBY CURRENT, ICC, (mA)
VCC STANDBY CURRENT VS.
LOW SIDE FLOATING SUPPLY VOLTAGE
0
300
280
260
240
220
12 2115 18 24
LOW SIDE FLOATING SUPPLY VOLTAGE, VCC, (VOLTS)
HIGH SIDE TURN-OFF PROPAGATION DELAY TIME, tdLH, (ns)
HIGH SIDE TURN-OFF PROPAGATION DELAY TIME
VS. LOW SIDE FLOATING SUPPLY VOLTAGE
200
260
240
220
200
180
12 2115 18 24
LOW SIDE FLOATING SUPPLY VOLTAGE, VCC, (VOLTS)
HIGH SIDE TURN-ON PROPAGATION DELAY TIME, tdHL, (ns)
HIGH SIDE TURN-ON PROPAGATION DELAY TIME
VS. LOW SIDE FLOATING SUPPLY VOLTAGE
160
25
20
15
10
5
12 2115 18 24
HIGH SIDE FLOATING SUPPLY VOLTAGE, VBS, (VOLTS)
HIGH LEVEL OUTPUT VOLTAGE, VOH, (VOLTS)
HIGH LEVEL OUTPUT VOLTAGE VS.
HIGH SIDE FLOATING SUPPLY VOLTAGE
012 2115 18 24
HIGH SIDE FLOATING SUPPLY VOLTAGE, VBS, (VOLTS)
LOW LEVEL OUTPUT VOLTAGE, VOL, (VOLTS)
LOW LEVEL OUTPUT VOLTAGE VS.
HIGH SIDE FLOATING SUPPLY VOLTAGE
0
16
14
12
10
8
6
4
2
-20 800 20 40 60 100
AMBIENT TEMPERATURE, Ta, (°C)
VCC STANDBY CURRENT, ICC, (mA)
VCC STANDBY CURRENT
VS. AMBIENT TEMPERATURE
0
1.4
1.2
1.0
0.8
0.6
0.4
0.2
1.0
0.8
0.6
0.4
0.2
12 2115 18 24
HIGH SIDE FLOATING SUPPLY VOLTAGE, VBS, (VOLTS)
VBS STANDBY CURRENT, IBS, (mA)
VBS STANDBY CURRENT VS.
HIGH SIDE FLOATING SUPPLY VOLTAGE
0
4.0
3.5
3.0
2.5
12 2115 18 24
LOW SIDE FLOATING SUPPLY VOLTAGE, VCC, (VOLTS)
HIGH LEVEL INPUT THRESHOLD VOLTAGE,
VIH, (VOLTS)
HIGH LEVEL INPUT THRESHOLD VOLTAGE VS.
LOW SIDE FLOATING SUPPLY VOLTAGE
2.0
2.5
2.0
1.5
1.0
12 2115 18 24
LOW SIDE FLOATING SUPPLY VOLTAGE, VCC, (VOLTS)
LOW LEVEL INPUT THRESHOLD VOLTAGE,
VIL, (VOLTS)
LOW LEVEL INPUT THRESHOLD VOLTAGE VS.
LOW SIDE FLOATING SUPPLY VOLTAGE
0.5
IO = 0mA
IO = -20mA IO = -75mA
IO = 0mA
IO = 20mA
IO = 150mA
5
M81705FP
HVIC, High Voltage Integrated Circuit
600 Volts/+150mA/-125mA
Powerex, Inc., 200 E. Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
-20 800 20 40 60 100
AMBIENT TEMPERATURE, Ta, (°C)
-20 800 20 40 60 100
AMBIENT TEMPERATURE, Ta, (°C)
VBS STANDBY CURRENT, IBS, (mA)
VBS STANDBY CURRENT
VS. AMBIENT TEMPERATURE
0
0.7
0.6
0.5
0.4
0.3
0.2
0.1
50
40
30
20
10
FLOATING SUPPLY LEAKAGE CURRENT, IFS, (µA)
FLOATING SUPPLY LEAKAGE CURRENT
VS. AMBIENT TEMPERATURE
0
VB = VS = 600V
-20 800 20 40 60 100
AMBIENT TEMPERATURE, Ta, (°C)
12.5
12.0
11.5
11.0
10.5
VBS SUPPLY UV RESET VOLTAGE, VBSuvr, (VOLTS)
VBS SUPPLY UV RESET VOLTAGE
VS. AMBIENT TEMPERATURE
10.0
-20 800 20 40 60 100
AMBIENT TEMPERATURE, Ta, (°C)
2.5
2.0
1.5
1.0
LOW LEVEL INPUT THRESHOLD VOLTAGE, VIL, (VOLTS)
LOW LEVEL INPUT THRESHOLD VOLTAGE
VS. AMBIENT TEMPERATURE
0.5
-20 800 20 40 60 100
AMBIENT TEMPERATURE, Ta, (°C)
4.0
3.5
3.0
2.5
HIGH LEVEL INPUT THRESHOLD VOLTAGE, VIH, (VOLTS)
HIGH LEVEL INPUT THRESHOLD VOLTAGE
VS. AMBIENT TEMPERATURE
2.0
-20 800 20 40 60 100
AMBIENT TEMPERATURE, Ta, (°C)
16
12
8
4
LOW LEVEL OUTPUT VOLTAGE, VOL, (VOLTS)
LOW LEVEL OUTPUT VOLTAGE
VS. AMBIENT TEMPERATURE
0
-20 800 20 40 60 100
AMBIENT TEMPERATURE, Ta, (°C)
16
12
8
4
HIGH LEVEL OUTPUT VOLTAGE, VOH, (VOLTS)
HIGH LEVEL OUTPUT VOLTAGE
VS. AMBIENT TEMPERATURE
0
-20 800 20 40 60 100
AMBIENT TEMPERATURE, Ta, (°C)
400
350
300
250
200
HIGH SIDE TURN-ON PROPAGATION DELAY TIME, tdLH, (ns)
HIGH SIDE TURN-ON PROPAGATION DELAY TIME
VS. AMBIENT TEMPERATURE
150
-20 800 20 40 60 100
AMBIENT TEMPERATURE, Ta, (°C)
400
350
300
250
200
HIGH SIDE TURN-OFF PROPAGATION DELAY TIME, tdHL, (ns)
HIGH SIDE TURN-OFF PROPAGATION DELAY TIME
VS. AMBIENT TEMPERATURE
150
IO = 0mA
IO = -20mA
IO = -75mA
IO = 0mA
IO = 20mA
IO = 150mA
Powerex, Inc., 200 E. Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
M81705FP
HVIC, High Voltage Integrated Circuit
600 Volts/+150mA/-125mA
6
TIMING DIAGRAM
1. Input/Output Timing Diagram
When input signal “L”, then output signal is “H”.
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 UV reset voltage, output signal keeps “L” until next input
signal is “L”.
VBS
OUT
IN
OUT VOth
IN
VBSuvt
VBSuvh
VBSuvr
tVBSuv
2. VBS Supply Under Voltage Lockout Timing Diagram
Firstly, supply VCC with voltage. Secondly, supply VBS with voltage. In the case of shutting off supply voltage, shut off
VBS Supply Voltage firstly. Secondly, shut off VCC Supply Voltage.
In case VBS or VCC is started too fast, output signal may be “H”.
As shown by the solid line of the timing chart, the output on-resistance drops at “VOth” level when the output is in the “L”
state (output level falls). Below the “VOth” level, the output level falls more steeply.
3. Allowable Supply Voltage Transient
4. ROL1 / ROL2 Switching Output Voltage VOth
200
150
100
50
0 1293 6 15
LOW LEVEL OUTPUT VOLTAGE, VOL, (VOLTS)
LOW LEVEL OUTPUT SHORT CIRCUIT
PULSED CURRENT, IOL, (mA)
LOW LEVEL OUTPUT SHORT CIRCUIT PULSED
CURRENT VS. LOW LEVEL OUTPUT VOLTAGE
(ROL1/ROL2 SWITCHING OUTPUT VOLTAGE)
0