1
HVIC
Half-Bridge Driver
M63954P
Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
Description:
M63954P is a high voltage
integrated circuit designed f or
electronic ballast, P o wer MOSFET
and IGBT module driver f or half-bridge
applications.
Features:
□600V Floating Supply Voltage
□±500mA Output Current
□Half-Bridge Driver
□Built-In Oscillator
□DIP–16 Package
□Built-In Regulator
Application:
The M63954P is designed for use
in electronic ballasts for fluorescent
lamps.
16 9
18
b1
D
SEATING
PLANE
ebb2
E
e1 c
A2
A1
AL
0
VREG
VCO
CVCO
RVCO
AB
ABTH
LNTH
LN
M63954P
1
2
3
4
5
6
7
8
16
15
14
13
12
11
10
9
CNT
OV
GND
LO
VCC
HVCC
HO
HGND
Dimensions Inches Millimeters
A 0.18 Max. 4.5 Max.
A10.02 Min. 0.51 Min.
A20.13 3.3
b 0.02±0.004 0.5±0.1
b10.06+0.01/-0.004 1.5+0.3/-0.1
b20.04+0.01/-0.004 1.0+0.3/-0.1
c 0.01 0.27+0.07/-0.05
Outline Drawing and Pin Diagram
Dimensions Inches Millimeters
D 0.75±0.01 19.0±0.2
E 0.25±0.01 6.3±0.15
e 0.10 2.54
e1 0.31 7.62
L 0.12 Min. 3.0 Min.
u
0° – 15°0° – 15°
2
M63954P
HVIC Half-Bridge Driver
Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
Absolute Maximum Ratings, Ta = 25°C unless otherwise specified
Ratings Symbol Test Conditions M63954P Units
High Side Floating Supply Offset Voltage HGND 600 Volts
High Side Floating Supply Voltage HVCC HGND = GND -0.5 ~ 20 Volts
Low Side Fixed Supply Voltage VCC -0.5 ~ 20 Volts
OV Input Voltage VOV -0.5 ~ VCC+0.5 Volts
AB Input Voltage V AB -0.5 ~ VCC+1.0 Volts
AB Input Current IAB 2mA
ABTH Input Voltage VABTH -0.5 ~ VCC+0.5 Volts
LN Input Voltage VLN -0.5 ~ VCC+1.0 Volts
LN Input Current ILN 2mA
LNTH Input V oltage VLNTH -0.5 ~ VCC+0.5 Volts
VCO Input V oltage VVCO -0.5 ~ VCC+0.5 Volts
High Side Output Current IHO ±500 mA
Low Side Output Current ILO ±500 mA
Package Power Dissipation PtTa = 25°C, On Board 1.67 W
Linear Derating Factor K
U
Ta > 25°C, On Board 13.3 mW/°C
Junction Temperature Tj150 °C
Operation Temperature Topr -20 ~ 80 °C
Storage Temperature Tstg -40 ~ 125 °C
Output Frequency, RVCO1 = 15kΩ, RVCO2 = 39kΩ, CVCO = 100pF
Oscillation Frequency VCO Input Voltage Min. Typ. Max. Units
50kHz 0.33VREG — 50 — kHz
60kHz 0.42VREG — 60 — kHz
3
M63954P
HVIC Half-Bridge Driver
Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
Electrical Characteristics, HGND = GND, HVCC = VCC = 15V, Ta = 25°C, unless otherwise specified
Characteristics Symbol Test Conditions Min. Typ. Max. Units
General
High Side Floating Supply Voltage HVCC HVCC – HGND 13 15 17 Volts
Low Side Fixed Supply Voltage VCC 13 15 17 Volts
Internal Supply Voltage VREG VCC = 15V, No Load 6.9 7.2 7.5 Volts
Standby Current ICC1 VCC = 15V, CNT = 5V, OV = 5V — 0.75 1 mA
ON Suspension Oscillate Current ICC2 VCC = 15V, CNT = 0V — 2 4 mA
ON Oscillation Current (50kHz) ICC3 VCC = 15V, RVCO1 = 15kΩ, 258mA
VVCO = 0.33 VREG
ON Oscillation Current (115kHz) ICC4 RVCO2 = 39kΩ CVCO = 100pF, 2 8 12 mA
VVCO = 0.42 VREG
UV Voltage
VCC UV Reset Voltage VUVr 9.0 10.0 11.0 Volts
VCC UV Trip V oltage VUVt 5.5 6.5 7.5 Volts
UV Response Delay Time tUV 14 — 100 µs
O V V oltage
OV Protection Vth VOV 3.4 3.6 3.8 Volts
OV Response Delay Time tOV 30 — 150 µs
OV Input Leak Current IOV VOV = 0V -0.5 -0.08 — µA
VCO V oltage
VCO Frequency Set Up Limit fVCO — — 250 kHz
Output Frequency Set Up Limit fOLO, HO — — 125 kHz
VCO Input Voltage Limit VVCO 1.5 — VREG-1.5 Volts
VCO Input Leak Current IVCO VVCO = 0V -2 -0.66 — µA
CVCO Input Voltage VCVCO VREG = 7.2V 5.5 5.55 5.6 Volts
CVCO Input Leak Current ICVCO VCVCO = 0V, VVCO > VCVCO -2 -0.66 — µA
RVCO Leak Current IrRVCO VCVCO = 0V, VREG = 7.2V, VRVCO = 10V — — 0.5 µA
RVCO Saturation Voltage VSRVCO VCVCO = 6V, VREG = 7.2V, IRVCO = 10mA — — 500 mV
4
M63954P
HVIC Half-Bridge Driver
Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
Electrical Characteristics, HGND = GND, HVCC = VCC = 15V, Ta = 25°C, unless otherwise specified
Characteristics Symbol Test Conditions Min. Typ. Max. Units
Connection Detect
LN Input Voltage Limit VLN 1—V
CC-1.5 Volts
LNTH Input Voltage Limit VLNTH 1—V
CC-1.5 Volts
LN Offset Voltage VLNIO -50 — 50 mV
LN Input Leak Current ILN VLN < VLNTH -1.0 -0.22 — µA
LNTH Input Leak Current ILNTH VLN > VLNTH, VCC < VUVr -1.0 -0.22 — µA
LNTH Input Hysteresis Current ILNTHh VLN > VLNTH, VLNTH = 5V 20 40 80 µA
LN Response Delay Time tLN 14 — 100 µs
Abnormal Detect
AB Input Voltage Limit VAB 0—V
REG-1.5 Volts
ABTH Input Voltage Limit VABTH 0—V
REG-1.5 Volts
AB Offset Voltage VABIO -50 — 50 mV
AB Input Leak Current IAB VAB < VABTH -0.5 -0.08 — µA
ABTH Input Leak Current IABTH VAB > VABTH -0.5 -0.08 — µA
AB Response Delay Time tAB 30 — 150 µs
External CNT
CNT Input Threshold Voltage VCNT 3.4 3.6 3.8 Volts
CNT Input Hysteresis Voltage VCNTh 0.8 1.0 1.2 Volts
CNT Input Leak Current ICNT VCNT = 0V -0.5 -0.08 — µA
CNT Response Delay Time tCNT 30 — 150 µs
Driver
Floating Supply Leak Current IRFC VHGND = 600V — — 2.0 µA
Dead Time tDEAD C = 1000pF 1.0 — 1.9 µs
HO Output Voltage VHOH1 IHO = 0mA 14.0 14.4 — Volts
VHOH2 IHO = -20mA 10 13 — Volts
VHOH3 IHO = -200mA 1.0 5.5 — Volts
VHOL1 IHO = 0mA — 5 100 mV
VHOL2 IHO = 20mA — 0.5 1.0 Volts
VHOL3 IHO = 200mA — 6 12 Volts
LO Output Voltage VLOH1 ILO = 0mA 14.0 14.4 — Volts
VLOH2 ILO = -20mA 10 13 — Volts
VLOH3 ILO = -200mA 1.0 5.5 — Volts
VLOL1 ILO = 0mA — 5 100 mV
VLOL2 ILO = 20mA — 0.5 1.0 Volts
VLOL3 ILO = 200mA — 6 12 Volts
Output Rise Time trAmplitude 10% → 90%, C = 1000pF — 50 120 ns
Output Fall Time tfAmplitude 90% → 10%, C = 1000pF — 50 120 ns
5
M63954P
HVIC Half-Bridge Driver
Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
VLOL VS. VCC CHARACTERISTIC
10
AMBIENT TEMPERATURE, T
a
, (°C)
VREG VS. Ta CHARACTERISTIC
AMBIENT TEMPERATURE, T
a
, (°C)
OSCILLATION CURRENT,I
CC
, (mA)
ICC VS. Ta CHARACTERISTIC
INTERNAL SUPPLY VOLTAGE, V
REG
, (VOLTS)
LOW SIDE FIXED SUPPLY VOLTAGE, V
CC
, (VOLTS)
"LO" OUTPUT VOLTAGE, VLOL, (VOLTS)
LOW SIDE FIXED SUPPLY VOLTAGE, V
CC
, (VOLTS)
"LO" OUTPUT VOLTAGE, VLOH, (VOLTS)
VLOH VS. VCC CHARACTERISTIC
LOW SIDE FIXED SUPPLY VOLTAGE, V
CC
, (VOLTS)
tDEAD VS. VCC CHARACTERISTIC
DEAD TIME, t
DEAD
, (µs)
LOW SIDE FIXED SUPPLY VOLTAGE, V
CC
, (VOLTS)
INTERNAL SUPPLY VOLTAGE, VREG, (VOLTS)
VREG VS. VCC CHARACTERISTIC
LOW SIDE FIXED SUPPLY VOLTAGE, V
CC
, (VOLTS)
OSCILLATION CURRENT, I
CC
, (mA
)
ICC VS. VCC CHARACTERISTIC
AMBIENT TEMPERATURE, T
a
, (°C)
POWER DISSIPATION, P
t
, (WATTS)
THERMAL DERATING FACTOR
CHARACTERISTICS
(TYPICAL)
AMBIENT TEMPERATURE, T
a
, (°C)
UNDER VOLTAGE, VUV, (VOLTS)
VUV VS. Ta CHARACTERISTIC
2.0
1.67
On Circuit Board
Circuit
Board
No
1.25
0.93
0.7
1.5
1.0
0.5
00 25 50 75 100 150125
6
115kHz
50kHz
Oscillation Suspension
Standby
5
3
4
2
1
08 131823
8.0
7.5
7.0
6.5
6.0 8 131823
50kHz
Oscillation Suspension
1.5
t
DEAD1
t
DEAD2
1.3
1.4
1.2
1.1
1.0 8 131823
20
15
10
5
08 131823
-20 mA
-200 mA
0 mA
Low Side
Output Current Low Side
Output Current
200 mA
20 mA 0 mA
6
8
4
2
08 131823
6
I
CC1
I
CC2
I
CC3
I
CC4
5
3
4
2
1
0-50 0 50 100 150
7.35
7.30
7.25
7.15
7.20
7.10
7.05
7.00-50 0 50 100 150
50kHz
Oscillation Suspension
12
V
UVt
V
UVr
10
6
8
4
2
0-50 0 50 100 150
6
M63954P
HVIC Half-Bridge Driver
Powerex, Inc., 200 Hillis Street, Youngwood, Pennsylvania 15697-1800 (724) 925-7272
AMBIENT TEMPERATURE, T
a
, (°C)
“
LOL” OUTPUT VOLTAGE, V
LOL
, (VOLTS
)
VLOL VS. Ta CHARACTERISTIC
AMBIENT TEMPERATURE, T
a
, (°C)
“
LOH” OUTPUT VOLTAGE, V
LOH
, (VOLTS
)
VLOH VS. Ta CHARACTERISTIC
AMBIENT TEMPERATURE, T
a
, (°C)
DEAD TIME, t
DEAD
, (µs)
tDEAD VS. Ta CHARACTERISTIC
1.9
1.7
1.8
1.6
1.5
1.3
1.4
1.2
1.1
1.0-50 0 50 100 150
t
DEAD1
t
DEAD2
16
14
12
10
6
8
4
2
0-50 0 50 100 150
-20 mA
-200 mA
-0 mA
10
8
6
4
2
0-50 0 50 100 150
200 mA
0 mA 20 mA
HVCC
VREG
VCC
LN
VCO
CVCO
RVCO
LNTH
CNT
8
1
2
34
7
12
HO
HGND
LO
AB
QS
R
QS
R
Q
Q
S
R
QS
R
DELAY
VREG START
VREG
0.348•VREG 0.773•VREG
CVCO RVCO2 RVCO1
UV
DEAD
TIME
1/2 VREG
ABTH
OV
GND
11
10
9
13
5
6
15
14
12
+
–
–
+
+
–
–
+
DELAY
DELAY
+
–
DELAY
+
–
DELAY
+
–
–LEVEL
SHIFT
BLOCK DIAGRAM
HO
DEAD TIME OUTPUT RISE TIME
F ALL TIME
HO, LO
LO
10%
90%
10%
10%10%
90% 90%90%
tDEAD
tDEAD trtf
