SANYO STK621-015

TENTATIVE
SANYO INVERTER POWER HYBRID MODULE
SIP Full Molded Package
input signals at once.
But, the operation of pre-drive power supply low voltage protection (UVLO: it
has a hysteresis about 0.3V) is as follows.
does a corresponding gate signal OFF.
Upper side →There is not FAULT signal output but it
Incidentally, it returns to the regular operation when
recovering to the normal voltage but the latch continues among input signal ON (Low).
→It outputs FAULT signal with gate signal OFF.
Lower side
However, it different from the protection operation
of upper side, it is automatically reset about 9 ms later and becomes an operation beginning
condition when recovering to the normal voltage. (The protection operation doesn't latch by the input
signal.)
３．
When assembling the hybrid IC on the heat sink, tightening torque range is 0.8N・m to 1.0N・
m.
４．
The pre-drive low voltage protection is the feature to protect a device when the pre-driver supply
voltage declines with the operating malfunction. As for the pre-driver supply voltage decline in case
of operation beginning, and so on, we request confirmation in the set.
SANYO Electric Co.,Ltd. Semiconductor Company Module Systems Division
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11.Oct.2002
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TENTATIVE
SANYO INVERTER POWER HYBRID MODULE
SIP Full Molded Package
6. Circuit Block Diagram
VB1( 8)
CB
U( 9)
VB2( 5)
V( 6)
VB3( 2)
CB
CB
W( 3)
U.V.
U.V.
U.V.
＋(11)
Shunt Resistor
−(13)
Level
Shifter
Level
Shifter
Level
Shifter
HIN1(14)
HIN2(15)
HIN3(16)
Logic
Logic
Logic
LIN1(17)
LIN2(18)
LIN3(19)
Fault(20)
Iso（21)
VDD(22)
Vss(23)
Latch
Latch Time About 9ms
( Automatic Reset )
Over-Current
VDD-Under Voltage
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11.Oct.2002
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SANYO INVERTER POWER HYBRID MODULE
SIP Full Molded Package
TENTATIVE
7. Test Circuit
Fig １ ： Ｉ CE
Ｉ CE
２
U+
V+
W+
U-
V-
W-
M
11
11
11
9
6
3
N
9
6
3
13
13
13
VD3 ＝ 15V
Ａ
Ｍ
３
５
VD2 ＝ 15V
６
Ｖ CE
８
VD1 ＝ 15V
９
２２
VD4 ＝ 15V
２３
Ｎ
Fig ２ ： Ｖ CE(SAT)
２
U+
V+
W+
U-
V-
W-
M
11
11
11
9
6
3
N
9
6
3
13
13
13
m
14
15
16
17
18
19
VD3 ＝ 15V
Ｍ
３
５
VD2 ＝15V
６
Ｖ
８
VD1 ＝ 15V
Ｉo
Ｖ CE(SAT)
９
２２
VD4 ＝ 15V
ｍ
２３
Ｎ
Fig ３ ： Ｖ F
U+
V+
W+
U-
V-
W-
M
11
11
11
9
6
3
N
9
6
3
13
13
13
Ｍ
Ｖ
ＶF
Ｉo
Ｎ
Fig ４ ： Ｉ D
VD1 VD2 VD 3
ＩD
VD4
m
8
5
2
22
n
9
6
3
23
Ａ
ｍ
ＶD＊
ｎ
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Rev.
11.Oct.2002
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TENTATIVE
SANYO INVERTER POWER HYBRID MODULE
SIP Full Molded Package
Fig ５ ： ＩSD
２
Input signal
VD3 ＝15V
９
３
５
VD2 ＝ 15V
６
８
ＩSD
VD1 ＝15V
Ｉo
９
２２
Ｉo
VD4 ＝15V
Input signal
100 μS
１７
２３
１３
Fig ６ ：Switching Time
２
Input signal
（0 ∼5 Ｖ ）
VD3 ＝15V
１１
３
５
VD2 ＝15V
６
９
Ｖcc
８
VD1 ＝15V
90 ％
Ｉo
ＣＳ
９
２２
10 ％
ｔON
VD4 ＝15V
Input signal
Ｉo
１７
２３
１３
ｔOFF
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Rev.
11.Oct.2002
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TENTATIVE
SANYO INVERTER POWER HYBRID MODULE
SIP Full Molded Package
8. Example of the application circuit
−
＋
HIN1
HIN2
HIN3
LIN1
LIN2
LIN3
FAULT
Iso
VDD
Vss
VB1
U
V
VB2
W
VB3
STK621-015
2 3 ･ 5 6 ･ 8 9 ･ 11 ･ 13 14 15 16 17 18 19 20 21 22 23
CB
DB
CB
DB
＋
−
CB
DB
Vcc
CS
RB
VDD=15V
Control Logic
CI
CD
9. Recommendation Operating Conditions
Parameters
Symbol
Value
Conditions
Min.
Supply voltage
Vcc
Unit
Typ.
Max.
0
280
400 V
VB1 - U,VB2 - V,VB3 - W
12.5
15
17.5 V
VD4
VDD - Vss ※１
13.5
15
16.5
Input ON voltage
VIN(ON)
HIN1,HIN2,HIN3,
0
−
0.3
Input OFF voltage
VIN(OFF)
LIN1,LIN2,LIN3 Terminal
3.5
−
5
PWM frequency
fPWM
1
−
20
KHZ
Deadtime
DT
2
−
−
μs
0.8
−
1.0
N･m
Pre-driver supply voltage VD1,2,3
＋ - −
Upper/lower
input
signal
V
downtime
Tightening torque
MT
‘Ｍ３’Type Screw
※１ Pre-drive power supply (VD4=15±1.5V) must have the capacity of Io=20mA(DC), 0.5A(Peak).
Usage Precautions
1. By the addition of the diode for the bootstrap (DB : high speed type, withstand voltage equal to or
more than 600V) and of the capacitor (CB : about 1 to 47μF), a single power supply drive is enabled.
In this case, it makes a lower side IGBT ON (input signal of lower side makes LOW). Then it charges
SANYO Electric Co.,Ltd. Semiconductor Company Module Systems Division
Rev.
11.Oct.2002
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SANYO INVERTER POWER HYBRID MODULE
SIP Full Molded Package
TENTATIVE
in CB. Incidentally, in case of start-up and so on, when the voltage of CB is low, the big charging
electric current flows and sometimes becomes the cause which exerts the bad influence of the noise
and so on. Put limitation resistance RB (Several Ω to about tens of Ω). (When not using bootstrap
circuit, each upper side pre-drive power supply needs an independent power supply. Externally set.)
Also, the upper side power supply voltage sometimes declines by the way of controlling. Confirm it.
2. Because the jump voltage which is accompanied by the vibration in case of switching operation
occurs by the influence of the floating inductance of the wiring of the outer power supply which is
connected with of the + terminal and the –terminal, restrains and spares serge voltage being as the
connection of the snubber circuit (Capacitor / CS / about 0.1 - 10 µF) for the voltage absorption with
the neighborhood as possible between + and the - terminal, and so on, with making a wiring length
(among the terminals each from CI) short and making a wiring inductance small.
3. Iso terminal (20pin) is for the electric current monitor. Be careful, because the overcurrent protection
does not operate when short-circuiting in the Iso terminal and the Vss terminal.
4. Output form of the FAULT terminal is open DRAIN (it is operating as FAULT when becoming LOW).
When the pull up with the resistance, use above 5.6KΩ.
5. Zener diode with 5V (5.0-5.4V) is connected with the inside of the signal input terminal. When
inputting the voltage which exceeds 5 V, connect resistor to between the side of the power and
the
signal input terminal, for the input current of the signal input terminal become equal to or less than
0.5mA. This resistor is effective with the noise absorption of the signal terminal, too.
6. The overcurrent protection feature operates only when it is possible to do a circuit control normally.
For the safety, put a fuse, and so on in the Vcc line.
7. Because the IC sometimes destroys and bursts when motor connection terminal (3pin,6pin,9pin)
becomes open while the motor turns, especially, be careful of the connection ( the soldering
condition ) of this terminal.
This data shows the example of the application circuit, does not guarantee a design as the mass
production set
SANYO Electric Co.,Ltd. Semiconductor Company Module Systems Division
Rev.
11.Oct.2002
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