IRF IR3220

Preliminary Data Sheet No.PD60180-B
IR3220
FULLY PROTECTED H-BRIDGE FOR D.C. MOTOR
Product Summary
Features
•
•
•
•
•
•
•
Over temperature shutdown
Over current shutdown
Inrush current limited by Soft-Start sequence
E.S.D protection
Status feedback
Sleep mode for direct battery connection
Braking/non-braking operation
Description
The IR 3220 is a Fully Protected Dual High Side Switch I.C.
With two additional Low Side switches (e.g. IRF7474 - available 01/01), the IR 3220 drives and controls the whole H bridge
topology. It provides shoot-through protection for each leg, H
bridge logic control, soft-start sequence and over-current /overtemp. protections. The signals IN1 and IN2 select the operation modes and the PWM Soft-Start sequence cycles the corresponding active low side switch in order to limit the motor
inrush current. By using the recommended part number and
the proper cooling, the inner High Side IPS protects the whole
H bridge function. The Soft-Start sequence is programmed by
an RC time constant and reset itself automatically.
Rds(on)
12mΩ max.
V cc.op.
5.5 to 35V
I cont. (Ta = 85oC)
7.0A
Ishutdown
30A
Oper. Freq.
20 kHz
Packages
8 Lead SOIC
(e.g. IRF7474)
20 Lead SOIC (wide body)
(IR3220)
Typical Connection
+ Bat.
+5V
VCC
Gnd
Vrc
14!
SS
IN 1 LS gate 1
M1
10 k
DG
M2
LS gate 2
Diagnostic
Feedback
IN 2
R
Clockwise motion
10 k
Rg
Rg
D
D
G
SO 8 Mosfet
Counter clockwise motion
G
S
S
10 k
SO 8 Mosfet
C
Micro
Controller
Electrical stop
Electrical stop
0V
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1
IR3220
Absolute Maximum Ratings
Absolute maximum ratings indicates sustained limits beyond which damage to the device may occur. All voltage parameters are referenced to Gnd lead. (TAmbient = 25o C unless otherwise specified). Symbols with (2) refer to M2 output.
Symbol
Parameter
Min.
Vm1 (2)
Vin1 (2)
Maximum M1 (M2) voltage (active clamp)
Maximum IN 1 (IN 2) voltage
Maximum Vcc pin to GND pin voltage
Maximum IN1 (IN 2) current
Maximum Gate 1 ( Gate 2 ) voltage
Maximum SS voltage
Maximum Vrc voltage
Maximum output current of the Vrc pin
Maximum diagnostic output voltage
Maximum diagnostic output current
Diode max. permanent current (Rth=60°C/W) (1)
(Rth=45°C/W) (1)
Vcc-37 Vcc+0.3
-0.3
5.5
0.3
50
-1
10
-0.3
7.5
-0.3
5.5
-0.3
5.5
1
—
-0.3
5.5
-1
10
3.0
—
Vcc/gnd
I in1 (2)
Vg1 (2)
Vss
Vrc
Irc
Vdg
Idg
Isd cont.
Isd pulsed
ESD 1
ESD 2
PD
TJ max.
TL
Vcc max.
Diode max. pulsed current (1)
Electrostatic discharge ( human body model C=100pF, R=1500Ω)
Electrostatic discharge ( machine model C=200pF, R=0Ω, L=10µH)
Maximum power dissipation ( Rth = 60°C/W )
Max. storage & operating junction temperature
Lead temperature ( soldering 10 seconds )
Maximum Vcc voltage
Ig1 (2) max.
Ig1 (2) avg.
Maximum gate current (Ton < 5µS)
Maximum average gate current
—
—
—
—
—
-40
—
—
—
—
Max.
4.0
15
tbd
tbd
1.5
+150
300
Units
V
mA
V
mA
V
mA
A
V
W
°C
37
100
10
mA
V
(1) Limited by junction temperature (pulsed current limited also by internal wiring)
Thermal Characteristics
Symbol
Parameter
Typ.
Max.
Units
Rth 1
Thermal junction to amb. resistance (stnd footprint 1 MOS on)
60
Thermal junction to ambient resistance (1" sq. footprint 1 MOS on)
45
—
—
°C/W
Rth 2
2
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IR3220
Recommended Operating Conditions
These values are given for a quick design. For operation outside these conditions, please consult the application notes.
Symbol
Parameter
Min.
Max.
Units
Vcc
Vin1 (2)
Vin1 (2)
8
4
-0.3
18
5.5
0.9
V
Iout Ta=85°C
Continuous Vcc voltage (2)
High level IN 1 (IN 2) input voltage
Low level IN 1 (IN 2) input voltage
Continuous output current (Rth/amb < 5 °C/W, Tj = 125°C)
Iout Ta=105°C
Continuous output current (Rth/amb < 5 °C/W, Tj = 125°C)
—
—
7.0
4.5
A
R in
R dg
R
C
R gate
Recommended resistor in series with IN pin
Recommended pull-up resistor on DG pin
Soft-Start resistor
Soft-Start capacitor
Recommended gate resistor for Low Side Switch
10
1
5.0
0.1
0
20
20
100
3.3
50
kΩ
µF
Ω
Static Electrical Characteristics
(Tj = 25oC, Vcc = 14V unless otherwise specified.)
Symbol
Parameter
Rds1 on
Rds2 on
Vcc oper.
Vclamp1 (2)
Vf1 (2)
IM1 (2) leakage
Icc off
Icc on
Vdgl
Idg leakage
Vih1 (2) th.
Vil1 (2) th.
Iin1 (2)
Vccuv
VccuvVss+
VssIss leakage
ON state resistance Tj = 25oC
ON state resistance Tj = 150oC
Functional voltage range
Vcc to M1 (M2) clamp voltage
Body diode 1 (2) forward voltage
M1 (M2) output leakage current
Supply current when off (sleep mode)
Supply current when on
Low level diagnostic output voltage
Diagnostic output leakage current
IN1 (IN2) high threshold voltage
IN1 (IN2) low threshold voltage
ON state IN1 (IN2) positive current
Vcc UVLO positive going threshold
Vcc UVLO negative going threshold
SS high level threshold
SS low level threshold
SS pin leakage current
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Min. Typ.
—
—
5.5
37
—
—
—
—
—
—
—
—
—
—
—
—
—
—
9
16
—
40
0.9
10
10
8
0.3
—
2.6
2.0
25
5
4
4
1
0.1
Max. Units Test Conditions
12
22
35
48
—
50
50
—
—
10
—
—
—
—
—
—
—
10
mΩ
Vin1,2 = 5V,1m1,2 = 5A
V
Id =10mA see Figs.1,2
Id = 5A, Vin1,2 = 0V
µA
Vm1, 2 = 0V; Tj = 25°C
Vin1(2) = 0V
Vin1 = 5V
Idg = 1.6mA
Vdg = 5.5V
mA
V
µA
V
µA
Vin1, 2 = 5V
V
µA
3
IR3220
Switching Electrical Characteristics
Vcc = 14V, Resistive Load = 3.0Ω, Tj = 25oC, (unless otherwise specified).
Symbol
Parameter
Min. Typ. Max. Units
Tdon
Tr1
Tr2
Turn-on delay time
Rise time to Vout = Vcc -5V
Rise time from the end of Tr1 to
Vout = 90% of Vcc
dV/dt (on)
Turn ON dV/dt
Tdoff
Turn-off delay time
Tf
Fall time to Vout = 10% of Vcc
dV/dt (off)
Turn OFF dV/dt
IN1 (2) max. freq. Max. frequency on IN1 (IN2)
Soft-Start freq.
Soft-Start oscillator frequency
Ig1 (2) min.
Min. Gate 1 (Gate 2) current
Trd
Min. IN1 (2) OFF time to reset SS
Vg1
Gate 1 (gate 2) voltage
—
—
5
4
—
—
—
—
—
—
—
—
15
50
2.0
—
65
3
65
8
5
500
20
—
—
7
—
—
—
—
—
—
30
—
—
—
Test Conditions
µs
see figure 3
V/µs
µs
see figure 4
V/µs
Hz
kHz
mA
ms
V
low side driver
C=3.0µF, IN1 = IN2
Protection Characteristics
Symbol Parameter
Tsd
Isd
Treset
Over-temperature threshold
Over-current threshold
Minimum time to reset protections
Min.
Typ.
—
25
—
165
30
100
Max. Units Test Conditions
—
35
—
oC
A
µS
See figure 2
See figure 2
IN1 = IN2 = 0V
Note: The low side switches present sufficient cooling capability in order to have the whole H Bridge function protected
by the IR3220 inner temperature sensor.
Functional Block Diagram
SS
Vrc
Ref.
Soft Start duty cycle
+
S S reset
-
Oscillator
uvlo
Gnd
VCC
VCC
H Bridge logic control
& status feedback
IN 1
40 V Active Clamp
IN 2
40 V Active Clamp
DG
Shoot-through
protection
G1
Over current
shutdown
Low Side
Driver
Shoot-through
protection
Low Side
Driver
M1
4
Over current
shutdown
Over temp.
protection
M2
G2
Gnd
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IR3220
Truth Table
IN1 IN2
L
L
L
H
L
H
H
L
H
L
H
H
MODES
Stand-by with braking - sleep mode**
Foward rotation (normal operation)
Foward rotation (protection triiggered)
Reverse rotation (normal operation)
Reverse rotation (protection triggered)
Stand-by without braking
DG
H
H
L
H
L
H
* During Soft-start sequence, the low side part is switching.
HS1
OFF
OFF
OFF
ON
OFF
OFF
LSS1
ON
ON*
ON*
OFF
OFF
OFF
HS2
OFF
ON
OFF
OFF
OFF
OFF
LSS2
ON
OFF
OFF
ON*
ON*
OFF
SS reset
ON
OFF
OFF
OFF
OFF
ON
** Protections are reset in this mode
Lead Definitions
Vcc
M1
M2
G1
G2
Gnd
Positive power supply
Motor 1 output ( high side source - leg 1 )
Motor 2 output ( high side source - leg 2 )
Gate 1 drive output ( low side gate - leg 1 )
Gate 2 drive output ( low side gate - leg 2 )
Power supply return
IN1
IN2
Dg
Vrc
SS
Logic input 1 ( Leg 1 Cdt. / mode )
Logic input 2 ( Leg 2 Cdt. / mode )
Diagnostic output ( open drain )
Voltage ref. output ( soft-start RC )
RC soft-start input ( the voltage on this input
drives the switching duty cycle )
Recommended Low Side MOSFET
e.g. IRF7413
OR
a 10mΩ /40V - SOIC 8 packaged Power Mosfet
Lead Assignments
V cc Vcc m 1 m 1 m 1 nc g1 G nd In1 Vrc
D D DD
S S S G
V cc Vcc m 2 m 2 m 2 nc g2 In2 D g S S
20 Lead - SOIC (wide body)
8 Lead - SOIC
IR3220
e.g. IRF7474
Part Number
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5
IR3220
Soft-start sequence
IN1
(IN2)
t
Vss+
SS
Vss-
t
M1-M2
(M2-M1)
Duty cycle modulation follows SS voltage
t
Tss ( approximately 1.4 x RC time constant )
Trd
Permanent Switching Operation
(without external RC time constant)
+5V
Additional Schottky diodes
have to be implemented if
the I.C temperature appears
too high.
A over-voltage protection
may be needed depending
on the power supply wire
length
Vcc
Micro
Diagnostic
Controller
Dg
In1
In2
ss
Direction &
Braking
Gnd
+Bat
Additional
Schottky diodes
Over-voltage
protection
IR 3220
DC Motor
Speed
Star Connection
0V
-Bat
T clamp
5V
IN1 (2) 0 V
t < T reset
IN1 (2)
I shutdown
I M1(2)
I M1(2)
( + Vcc )
Tj
t > T reset
T shutdown
Tsd
M1(2)
0V
V clamp
DG
5V
0V
( see IPS Appl . Notes to evaluate power dissipation )
Figure 1 - Active clamp waveforms
6
Figure 2 - Protection Timing diagram
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IR3220
IN 1(2)
IN1(2)
Vcc
90%
90%
M1(2)
Vcc - 5 V
M1 (2)
10%
dV/dt on
Td off
10%
Td on
dV/dt off
Tr 1
Tf
Tr 2
Figure 3 - Switching Time Definitions (turn-on)
Figure 7 - Switching Time Definitions (turn-off)
IN1
t
IN2
t
SS
t
M1
Soft-Start sequence
t
M2
Motor
Current
t
Breaking Mode
(M1 & M2 grounded)
Stand-by Mode
(M1 & M2 opened)
t
Figure 5 - IN1 (2) & M1 (2) Timing Diagrams
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IR3220
6
50
IN1H (2)
5
40
IN1L (2)
IN1 (2) Hyst.
4
30
3
20
2
10
1
0
-50 -25
0
0
25
50
75
-50
100 125 150
Figure 6 - IN1 (2) current (µA) vs Tj (oC)
0
50
100
150
Figure 7 - IN1 (2) thresholds (V) vs Tj (oC)
15
30
- - - 1’’ square footprint
------- standard footprint
12.5
10
20
7.5
5
10
2.5
0
0
-50
-50
-25
0
25
50
75
100
Figure 8 - Rdson (mΩ) vs Tj (oC)
8
125
0
50
100
150
200
150
Figure 9 - Max. Cont. current (A) vs Amb. Temp. (oC)
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IR3220
100
1000
10
100
10
1
1
0
0
0
1.00E-06
1.00E-04 1.00E-02 1.00E+00 1.00E+02 1.00E+04
Figure 10 - Transient Thermal Imped. (oC/W)
vs Time (s)
1.00E03
1.00E02
1.00E- 1.00E+ 1.00E+ 1.00E+ 1.00E+
01
00
01
02
03
Figure 11 - Iclamp (A) vs
Power Supply Wire Inductance (mH - single pulse)
Case Outline - 8 Lead SOIC
(MS-012AA) 01-0021 09
4/12/2000
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9
IR3220
Case Outline
20 Lead SOIC (wide body)
(MS-013AC) 01-3080 00
IR WORLD HEADQUARTERS: 233 Kansas St., El Segundo, California 90245 Tel: (310) 252-7105
Data and specifications subject to change without notice. 3/9/2001
10
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