STMICROELECTRONICS TD351_11

TD351
Advanced IGBT/MOSFET driver
Features
■
1.7 A sink / 1.3 A source (typ) current capability
■
Active Miller clamp feature
■
Two-level turn-off with adjustable level and
delay
■
Input compatible with pulse transformer or
optocoupler
■
UVLO protection
■
2 kV ESD protection
SO-8
The TD351 is compatible with both pulse
transformer and optocoupler signals.
Applications
■
1200 V 3-phase inverters
■
Motor control systems
■
UPS
Description
This device is an advanced gate driver for IGBT
and power MOSFETs. Control and protection
functions are included and allow the design of
high reliability systems.
The innovative active Miller clamp function
eliminates the need for negative gate drive in
most applications and allows the use of a simple
bootstrap supply for the high side driver.
The TD351 includes a two-level turn-off feature
with adjustable level and delay. This function
protects against excessive overvoltage at turn-off
in case of overcurrent or short-circuit conditions.
The same delay is applied at turn-on to prevent
pulse width distortion.
Table 1.
Device summary
Order codes
Temperature range
Package
-40°C, +125°C
SO-8
TD351ID
Tube
TD351IDT
June 2011
Packaging
Tape and reel
Doc ID 10977 Rev 2
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www.st.com
19
Contents
TD351
Contents
1
Block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3
2
Pin connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4
3
Absolute maximum ratings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
4
Electrical characteristics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6
5
Functional description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
5.1
Input stage
................................................ 8
5.2
Voltage reference
........................................... 8
5.3
Active Miller clamp
.......................................... 8
5.4
Two level turn-off . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8
5.5
Minimum input ON-time . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
5.6
Output stage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9
5.7
Undervoltage protection
...................................... 9
6
Timing diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12
7
Typical performance curves . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14
8
Application diagrams . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 16
9
Package mechanical data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17
10
Revision history . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18
2/19
Doc ID 10977 Rev 2
TD351
Block diagram
Figure 1.
TD351 block diagram
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Pin connections
2
TD351
Pin connections
Figure 2.
Pin connections (top view)
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Table 2.
4/19
Pin description
Pin n°
Name
Type
Function
1
IN
Analog input
Input
2
VREF
Analog output
+5 V reference voltage
3
CD
Timing capacitor
Turn on/off delay
4
LVOFF
Analog input
Turn off level
5
CLAMP
Analog output
Miller clamp
6
VL
Power supply
Signal ground
7
OUT
Analog output
Gate drive output
8
VH
Power supply
Positive supply
Doc ID 10977 Rev 2
TD351
Absolute maximum ratings
3
Absolute maximum ratings
Table 3.
Absolute maximum ratings
Symbol
Parameter
Value
Unit
28
V
VHL
Maximum supply voltage (VH - VL)
Vout
Voltage on OUT, CLAMP, LVOFF pins
VL-0.3 to VH+0.3
V
Vother
Voltage on other pins (IN, CD, VREF)
-0.3 to 7
V
500
mW
-55 to 150
°C
Maximum junction temperature
150
°C
RthJA
Thermal resistance junction-ambient
150
°C/W
ESD
Electrostatic discharge (HBM)
2
kV
Value
Unit
UVLO to 26
V
-40 to 125
°C
Pd
Power dissipation
Tstg
Storage temperature
Tj
Table 4.
Symbol
VH
Toper
Operating conditions
Parameter
Positive supply voltage vs. VL
Operating free air temperature range
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Electrical characteristics
4
TD351
Electrical characteristics
TA = -20 to 125°C, VH = 16 V, unless otherwise specified.
Table 5.
Electrical characteristics
Symbol
Parameter
Test condition
Min
Typ
0.8
1.0
Max
Unit
Input
Vton
IN turn-on threshold voltage
Vtoff
IN turn-off threshold voltage
tonmin
Iinp
Minimum pulse width
IN input current
100
V
4.0
4.2
V
135
220
ns
1
µA
5.15
V
IN input voltage < 4.5V
Voltage reference (1)
Vref
Voltage reference
Iref
Maximum output current
T = 25°C
4.85
5.00
10
mA
Clamp
Vtclamp
VCL
CLAMP pin voltage threshold
Clamp low voltage
2.0
Icsink = 500mA
V
2.5
V
Delay
Vtdel
Voltage threshold
2.5
Rdel
Discharge resistor
I=1mA
Iblvoff
LVOFF peak input current (sink)
LVOFF = 12V
Violv
Offset voltage
LVOFF = 12V
Isink
Output sink current
Isrc
V
500
Off Level
90
200
µA
-0.3
-0.15
0
V
Vout = 6V
1000
1700
mA
Output source current
Vout = VH-6V
750
1300
mA
VOL1
Output low voltage 1
Iosink = 20mA
0.35
V
VOL2
Output low voltage 2
Iosink = 500mA
2.5
V
VOH1
Output high voltage 1
Iosource = 20mA
VH-2.5
V
VOH2
Output high voltage 2
Iosource = 500mA
VH-4.0
V
tr
Rise time
CL = 1nF, 10% to 90%
100
ns
tf
Fall time (2)
CL = 1nF, 90% to 10%
100
ns
Turn on propagation delay
10% OUT change:
Rd = 4.7kΩ, no Cd
Rd = 10kΩ, Cd = 220 pF
600
2.2
ns
µs
550
ns
Output
tdon
tdoff
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Turn off propagation delay (2)
10% OUT change
Doc ID 10977 Rev 2
1.8
2.0
TD351
Table 5.
Electrical characteristics
Electrical characteristics (continued)
Symbol
∆tw
Parameter
Input to output pulse distortion
Test condition
Min
10% OUT change,
∆tw=Twout-Twin
Typ
Max
Unit
50
100
ns
Under voltage lockout (UVLO)
UVLOH
UVLO top threshold
10
11
12
V
UVLOL
UVLO bottom threshold
9
10
11
V
0.5
1
Vhyst
UVLO hysteresis
UVLOH-UVLOL
V
Supply current
Iin
Quiescent current
OUT = 0V; no load
2.5
mA
1. Recommended capacitor range on VREF pin is 10 nF to 100 nF
2. 2 step turn-off disabled.
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Functional description
TD351
5
Functional description
5.1
Input stage
The TD351 input is compatible with optocouplers or pulse transformers. The input is
triggered by the signal edge and allows the use of low-sized, low-cost pulse transformers.
Input is active low and output is driven high when input is driven low. The IN input is
internally clamped at about 5 V to 7 V. When using an open collector optocoupler, the
resistive pull-up resistor can be connected to either VREF or VH. Recommended pull-up
resistor value with VH = 16 V is from 4.7 kΩ to 22 kΩ. When driven by a pulse transformer,
the input positive and negative pulse widths at the Vton and Vtoff threshold voltages must be
larger than the minimum pulse width tonmin (see Figure 6). This feature acts as a filter
against invalid input pulses smaller than tonmin.
5.2
Voltage reference
A voltage reference is used to create accurate timing for the turn-on delay with external
resistor and capacitor. The same circuitry is also used for the two-level turn-off delay. A
decoupling capacitor (10 nF to 100 nF) on the VREF pin is required to ensure good noise
rejection.
5.3
Active Miller clamp
The TD351 offers an alternative solution to the problem of Miller current in IGBT switching
applications. Instead of driving the IGBT gate to a negative voltage to increase the safety
margin, the TD351 uses a dedicated CLAMP pin to control the Miller current. When the
IGBT is off, a low impedance path is established between the IGBT gate and emitter to carry
the Miller current, and the voltage spike on the IGBT gate is greatly reduced. During turn-off,
the gate voltage is monitored and the clamp output is activated when the gate voltage goes
below 2 V (relative to VL). The clamp voltage is VL+4V max for a Miller current up to 500
mA. The clamp is disabled when the IN input is triggered again.
The CLAMP function does not affect the turn-off characteristic, but only keeps the gate at
low level throughout the OFF-time. The main benefit is that negative voltage can be avoided
in many cases, allowing a bootstrap technique for the high side driver supply.
5.4
Two-level turn-off
During turn-off, the gate voltage can be reduced to a programmable level in order to reduce
the IGBT current (in the event of overcurrent). This action prevents both dangerous
overvoltages across the IGBT and RBSOA problems, especially at short-circuit turn-off.
The turn-off (Ta) delay is programmable through external resistor Rd and capacitor Cd for
accurate timing.
8/19
Doc ID 10977 Rev 2
TD351
Functional description
Ta is approximately given by (see Figure 5):
T a ( µs ) = 0.7 ⋅ R d ( kΩ) ⋅ C d ( nF )
The turn-off delay (Ta) is also used to delay the input signal to prevent distortion of input
pulse width.
The two-level turn-off sequence can be disabled by connecting the LVOFF pin to VH and
connecting the CD pin to VREF with a 4.7 kΩ resistor.
5.5
Minimum input ON-time
Input signals with ON-time smaller than Ta are ignored.
ON-time signals larger than Ta+2.Rdel.Cd (Rdel is the internal discharge switch resistance,
Cd is the external timing capacitor) are transmitted to the output stage after the Ta delay, with
minimum width distortion (∆Tw=Twout-Twin).
For ON-time input signals close to Ta (between Ta and Ta+2.Rdel.Cd), the two-level duration
is slightly reduced and the total output width can be smaller than the input width (see
Figure 7).
5.6
Output stage
The output stage is able to sink/source 1.7 A/1.3 A (typical) at 25 °C and 1.0 A/0.75 A min.
over the full temperature range. This current capability is specified near the usual IGBT
Miller plateau.
5.7
Undervoltage protection
Undervoltage detection protects the application in the event of a low VH supply voltage
(during startup or a fault situation). During undervoltage, the OUT pin is driven low (active
pull-down for VH>2V, and passive pull-down for VH<2V).
Doc ID 10977 Rev 2
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Functional description
Figure 3.
TD351
Undervoltage protection
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TD351
Functional description
Figure 4.
Detailed internal schematic
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Timing diagrams
6
TD351
Timing diagrams
Figure 5.
General turn-on and two-level turn-off sequence
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Figure 6.
Input and output waveform dynamic parameters
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LEVELMODE
6TON
TONMIN
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TONMIN
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TD351
Timing diagrams
Figure 7.
Minimum ON-time
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Typical performance curves
TD351
Typical performance curves
Figure 8.
Quiescent current vs temperature
Figure 9.
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Rdel resistance vs temperature
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Figure 10. Low level output voltage vs temp.
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Figure 11. High level output voltage vs temp.
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TD351
Typical performance curves
Figure 12. Sink current vs temperature
Figure 13. Source current vs temperature
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Application diagrams
8
TD351
Application diagrams
Figure 14. Single supply IGBT drive with active Miller clamp and opto input signal
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Figure 15. Single supply IGBT drive with active Miller clamp and pulse transformer
input signal
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Figure 16. Large IGBT drive with negative voltage gate drive and optional current
buffers
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TD351
9
Package mechanical data
Package mechanical data
In order to meet environmental requirements, ST offers these devices in different grades of
ECOPACK® packages, depending on their level of environmental compliance. ECOPACK®
specifications, grade definitions and product status are available at: www.st.com.
ECOPACK® is an ST trademark.
Table 6.
SO-8 mechanical data
mm.
inch
Dim.
Min.
Typ
Max.
Min.
Typ.
Max.
A
1.35
1.75
0.053
0.069
A1
0.10
0.25
0.04
0.010
A2
1.10
1.65
0.043
0.065
B
0.33
0.51
0.013
0.020
C
0.19
0.25
0.007
0.010
D
4.80
5.00
0.189
0.197
E
3.80
4.00
0.150
0.157
e
1.27
0.050
H
5.80
6.20
0.228
0.244
h
0.25
0.50
0.010
0.020
L
0.40
1.27
0.016
0.050
k
(max.) 8
ddd
0.1
0.04
Figure 17. SO-8 mechanical drawing
#
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Revision history
10
TD351
Revision history
Table 7.
18/19
Document revision history
Date
Revision
Changes
01-Nov-2004
1
Initial release
16-Jun-2011
2
Removed order code TD351IN
Doc ID 10977 Rev 2
TD351
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