ps12034
MITSUBISHI SEMICONDUCTOR
PS12034
FLAT-BASE TYPE
INSULATED TYPE
Mar. 2002
PS12034
INTEGRATED FUNCTIONS AND FEATURES
• Converter bridge for 3 phase AC-to-DC power conversion.
• 3 phase IGBT inverter bridge configured by the latest 3rd.
generation IGBT and ...
MITSUBISHI SEMICONDUCTOR
PS12034
FLAT-BASE TYPE
INSULATED TYPE
Mar. 2002
PS12034
INTEGRATED FUNCTIONS AND FEATURES
• Converter bridge for 3 phase AC-to-DC power conversion.
• 3 phase IGBT inverter bridge configured by the latest 3rd.
generation IGBT and diode technology.
• Inverter output current capability IO (Note 1):
APPLICATION
Acoustic noise-less 0.75kW/400V AC Class 3 phase inverters, motor control applications,
and motors with built-in small size inverter package
PACKAGE OUTLINES
Type Name
PS12034
IO (100%)
3.4Arms
IO (150%; 60sec)
5.1Arms
Motor Rating
0.75 kW/400V AC
(Note 1) : The inverter output current is assumed to be sinu-
soidal and the peak current value of each of the
above loading cases is defined as : IOP = IO × √2,
TC < 100°C
(Fig. 1)
MITSUBISHI SEMICONDUCTOR
PS12034
FLAT-BASE TYPE
INSULATED TYPE
Terminals Assignment :
1. P2
2. P1
3. R
4. S
5. T
6. N1
7. N2
8. U
9. V
10. W
11. FO
12. Vamp
13. GND
14. WN
15. VN
16. UN
17. WP
18. VP
19. UP
20. TH
21. VD
22. NC
23. CBW–
24. CBW+
25. CBV–
26. CBV+
27. CBU–
28. CBU+
1.4
3
1
9 12
.517 20
.4
3
12
.5
12
.5
15
11.5
69
22
4-φ4
30.48 22.8612
54 69
33.5 2 6
24
22
3.
5
7.
62
7.
62
9.
5
15
24
2
6.5
9
46
3
3
792.5 2.5
1
2 8.5
39
±0
.2
95±0.2
–0.4
0103
–
0.
4
0
73
0.5
0.
5
(13.04) 9
(1) (2) (3) (4) (5) (6) (7)
(8)
(9)
(10)
(11)(22)(23)
(25)(28)
7.62
4-R2
8-R1
4-R4
INTEGRATED DRIVE, PROTECTION AND SYSTEM CONTROL FUNCTIONS:
• P-Side IGBTs : Drive circuit, high-level-shift circuit, Bootstrap circuit supply scheme for single control-power-source drive, and Under
voltage (UV) protection,
• N-Side IGBTs : Drive circuit, DC-Link current sense and amplifier circuits for over-current protection, Control-supply under-voltage
(UV) protection, and fault output (FO) signaling circuit.
• Fault Output : N-side IGBT short circuit (SC), over-current (OC), and control supply under-voltage (UV).
• Inverter Analog Current Sense : N-Side IGBT DC-Link Current Sense.
• Input Interface : 5V CMOS/TTL compatible, Schmitt Trigger input, and Arm-Shoot-Through interlock protective function.
MITSUBISHI SEMICONDUCTOR
PS12034
FLAT-BASE TYPE
INSULATED TYPE
Mar. 2002
W
V
N2
T
S
R
P1
P2
U
VD
UP
VP
WP
UN
VN
WN
FO
V(amp)
GND
TH
Inp
ut
sig
na
l c
on
dit
ion
ing
(Int
er
loc
k c
irc
uit
)
Le
ve
l s
hi
fte
r
Dr
ive
c
irc
u
it
Dr
ive
c
irc
u
it
UV Protection
–+
UV
Pr
ot
e
ct
io
n
Fo Circuit
OC
/S
C
Pr
ot
ec
tio
n
N1
INTERNAL FUNCTIONS BLOCK DIAGRAM
MAXIMUM RATINGS (Tj = 25°C)
INVERTER PART
CONVERTER PART
CONTROL PART
(Fig. 2)
ConditionSymbol Item Ratings Unit
Applied between P2-N2
Applied between P2-N2, Surge-value
Applied between P2-U.V.W, U.V.W-N2
Applied between P2-U.V.W, U.V.W-N2
(Pulse)
TC = 25°C, “( )” means IC peak value
VCC
VCC(surge)
VP or VN
VP(S) or
VN(S)
±Ic(±Icp)
Supply voltage
Supply voltage (surge)
Each IGBT collector-emitter static voltage
Each IGBT collector-emitter switching
voltage
Each IGBT collector current
900
1000
1200
1200
±10 (±20)
V
V
V
V
A
ConditionSymbol Item Ratings Unit
3φ rectifying circuit
1 cycle at 60Hz, peak value non-repetitive
Value for one cycle of surge current
VRRM
Ea
IO
IFSM
I2t
Repetitive peak reverse voltage
Recommended AC input voltage
DC output current
Surge (non-repetitive) forward current
I2t for fusing
1600
440
12
120
60
V
Vrms
A
A
A2s
Symbol Item Ratings Unit
VD, VDB
VCIN
VFO
IFO
Iamp
Supply voltage
Input signal voltage
Fault output supply voltage
Fault output current
DC-Link IGBT current signal Amp output current
–0.5 ~ 20
–0.5 ~ +7.5
–0.5 ~ +7.5
15
1
V
V
V
mA
mA
MITSUBISHI SEMICONDUCTOR
PS12034
FLAT-BASE TYPE
INSULATED TYPE
Mar. 2002
TOTAL SYSTEM
(Note 2) : The indicated values are specified considering the safe operation of all the parts within the ASIPM. The max. ratings for the ASIPM
power chips (IGBT & FWDi) is Tj < 150.
THERMAL RESISTANCE
ELECTRICAL CHARACTERISTICS (Tj = 25°C, VD = 15V, VDB = 15V unless otherwise noted)
ConditionSymbol Item Ratings Unit
(Note 2)
—
(Fig. 3)
60 Hz sinusoidal AC applied between all terminals and
the base plate for 1 minute.
Mounting screw: M3.5
Tj
Tstg
TC
VISO
—
Junction temperature
Storage temperature
Module case operating temperature
Isolation voltage
Mounting torque
–20 ~ +125
–40 ~ +125
–20 ~ +100
2500
0.78 ~ 1.27
°C
°C
°C
Vrms
N·m
ConditionSymbol Item
Ratings
Inverter IGBT (1/6)
Inverter FWDi (1/6)
Converter Di (1/6)
Case to fin, thermal grease applied (1 Module)
Rth(jc)Q
Rth(jc)F
Rth(jc)FR
Rth(cf)
Junction to case Thermal
Resistance
Contact Thermal Resistance
Min.
°C/W
°C/W
°C/W
°C/W
Typ. Max.
—
—
—
—
—
—
—
—
2.3
3.0
2.5
0.05
Unit
Short circuit endurance
(Output, Arm, and Load, Short Circuit Modes)
Switching SOA
Tj = 25°C, Input = ON, Ic = 10A, VD = VDB = 15V
(Shunt voltage drop not included)
Tj = 25°C, –IC = 10A
Tj = 25°C, IFR = 12A
VR = VRRM, Tj = 125°C
1/2 Bridge inductive, Input = 5V ↔ 0V
VCC = 600V, IC = 10A, Tj = 125°C
VD = 15V, VDB = 15V
Note: ton, toff include delay time of the internal control
circuit.
ConditionSymbol Item
Ratings
Min.
V
V
V
mA
µs
µs
µs
µs
µs
Typ. Max.
—
—
—
—
0.3
—
—
—
—
—
—
—
—
1.2
0.5
2.2
0.9
0.2
3.6
3.5
1.7
8
2.0
1.4
4.0
1.6
—
• No destruction
• FO output by protection operation
• No destruction
• No protecting operation
• No FO output
Collector-emitter saturation
voltage
FWDi forward voltage
Converter diode voltage
Converter diode reverse current
Switching times
FWDi reverse recovery time
VCE(sat)
VEC
VFR
IRRM
ton
tc(on)
toff
tc(off)
trr
@VCC ≤ 800V, Input = 5V → 0V (One-Shot)
–20˚C ≤ Tj(start) ≤ 125°C, 13.5V ≤ VD = VDB ≤ 16.5V
@VCC ≤ 800V, Input = 5V ↔ 0V, Tj ≤ 150°C
IC < OC trip level, 13.5V ≤ VD = VDB ≤ 16.5V
Unit
(Fig. 3)
CASE TEMPERATURE MEASUREMENT POINT
TC
L A B E L
MITSUBISHI SEMICONDUCTOR
PS12034
FLAT-BASE TYPE
INSULATED TYPE
Mar. 2002
ELECTRICAL CHARACTERISTICS (Tj = 25°C, VD = 15V, VDB = 15V unless otherwise noted)
(Note 3) : The dead-time has to be set externally by the CPU; it is not part of the ASIPM internal functions.
(Note 4) : Fault output signaling is given only when the internal OC, SC, & UV protection circuits are activated.
The OC, SC and UV protection (and fault output) operate for the lower arms only. The OC and SC protection Fault output is given
in a pulse format while that of UV protection is maintained throughout the duration of the under-voltage condition.
Tj = 25°C, VD = 15V, Vin = 5V
Tj = 25°C, VD = VDB = 15V, Vin = 5V
Applied between input terminal-Inside power supply
TC ≤ 100°C, Tj ≤ 125°C
Relates to corresponding inputs
TC = –20°C ~ +100°C (Note 3)
Relates to corresponding input (Fig. 6)
IC = IOP(100%) VD = 15V
IC = IOP(200%) Tj = 25°C (Fig. 4)
IC = IOP(250%) VD = 15V
IC = 0A (Fig. 4)
Tj = 25°C (Fig. 5)
Tj = 25°C (Fig. 5)
Tj = 25°C (Fig. 5)
Tj = 25°C (Fig. 5)
–20°C ~ 100°C
TC = Tj = 25°C
Tj = 25°C (Note 4)
Open drain output (Note 4)
Tc = 25°C
Resistance at 25°C, 50°C
Circuit current
Circuit current
Input on threshold voltage
Input off threshold voltage
Input pull-up resistor
PWM input frequency
Input interlock sensing
Inverter DC-Link IGBT current sense voltage
output signal
Inverter DC-Link IGBT current sense voltage
output limit
Over current trip level
Over current delay time
Short circuit trip level
Short circuit delay time
VD UV trip level
VD UV reset level
VDB UV trip level
VDB UV reset level
UV delay time
Fault output pulse width
Fault output current
Thermistor Resistance
Thermistor B constant
ConditionSymbol Item
Ratings
ID
IDB
Vth(on)
Vth(off)
Ri
fPWM
tdead
tint
Vamp(100%)
Vamp(200%)
Vamp(250%)
Vamp(0)
OC
tOC
SC
tSC
UVD
UVDr
UVDB
UVDBr
tdV
tFO
IFo(H)
IFo(L)
RTH
B
Min.
mA
mA
V
V
kΩ
kHz
µs
ns
V
V
V
mV
A
µs
A
µs
V
V
V
V
µs
ms
µA
mA
kΩ
K
Typ. Max.
—
—
0.8
2.5
—
—
4.0
—
1.5
3.0
5.0
—
14.4
—
—
—
11.0
11.5
10.1
10.6
—
1.0
—
—
9.5
—
—
—
1.4
3.0
50
10
—
100
2.0
4.0
—
50
17.2
10
25.8
2
12.0
12.5
10.8
11.3
10
1.8
—
—
10
3450
50
5
2.0
4.0
—
15
—
—
2.5
5.0
—
100
—
—
—
—
12.75
13.25
11.6
12.1
—
—
1
15
10.5
—
Unit
Supply circuit under
voltage protection
RECOMMENDED OPERATING CONDITIONS
V
V
V
V/µs
V
V
µs
°C
kHz
µs
800
16.5
16.5
+1
0.8
5.0
—
100
15
—
—
13.5
13.5
–1
0
4.0
4.0
—
—
1
Applied across P2-N2 terminals
Applied between VD-GND
Applied between CBU+ & CBU–, CBV+ & CBV–, CBW+ & CBW–
Applied between UP • VP • WP • UN • VN • WN and
GND
Relates to corresponding inputs
TC ≤ 100°C, Tj ≤ 125°C
ConditionSymbol Item
Ratings
VCC
VD
VDB
∆VD, VDB
VCIN(ON)
VCIN(OFF)
tdead
TC
fPWM
tXX
Supply voltage
Supply voltage
Supply voltage
Supply voltage ripple
Input on voltage
Input off voltage
Arm shoot-through blocking time
Module case operating temperature
PWM Input frequency
Allowable input on-pulse width
Min. Typ. Max.
600
15.0
15.0
—
—
—
—
—
—
—
Unit
200
1
2
3
4
5
3001000
0
Va
m
p
(V
)
Vamp (200%)
Vamp (100%)
VD = 15V
Tj = 25°C
Vamp
DC-LINK IGBT Current (%), (IC = IO✕ 2)
(Fig. 4)
INVERTER DC-LINK IGBT CURRENT ANALOGUE
SIGNALING OUTPUT (TYPICAL)
Arm shoot-through blocking time
MITSUBISHI SEMICONDUCTOR
PS12034
FLAT-BASE TYPE
INSULATED TYPE
Mar. 2002
SC
Ic(A)
OC
tw (µs)
Over current trip level
Collector current
Short circuit trip level
102
0
CURRENT ABNORMALITY PROTECTIVE FUNCTIONS
ARM-SHOOT-THROUGH INTER-LOCK PROTECTIVE FUNCTION
Protection is achieved by monitoring and filtering the N-side DC-Bus
current. When a current trip-level is exceeded all the N-side IGBTs are
intercepted (turned OFF) and a fault-signal is output. After the fault-sig-
nal output duration (1.8m sec (typ.)@25°C), the interception is Reset
at the following OFF input signal level (more than 4.0V).
(Fig. 5)
P-Side Input Signal : VCIN(p)
N-Side Input Signal : VCIN(n)
ON
ON
P-Side IGBT Gate : VGE(p)
N-Side IGBT Gate : VGE(n)
a1 b4
b3
b2
b1a4
a3
a2
0
0
(Fig. 6)
Description:
(1) During the ON-State of either of the upper-arm or the lower-arm IGBT, the inter-lock protection circuit blocks any erroneous ON pulses (re-
sulting from input noise) from triggering the other arm IGBT and thus it prevents the arm-shoot-through situation.
(2) When two ON-signals are received for both the upper and the lower arms, the signal received first will be passed to the IGBT and the sec-
ond signal will be blocked. The second signal will be passed to its corresponding IGBT immediately after the first signal is OFF.
Note: This protective function provides no fault signaling output. The Dead-Time has to be set using the micro-controller (CPU).
b1. N-side normal ON-signal ⇒ N-side IGBT gate turns ON.
b2. Simultaneous ON-signals ⇒ P-side IGBT gate remains OFF.
b3. N-side receives OFF-signal ⇒ N-side IGBT gate turns OFF.
b4. Immediately after (b3) ⇒ P-side IGBT gate turns ON.
Operation:
a1. P-side normal ON-signal ⇒ P-side IGBT gate turns ON.
a2. N-side erroneous ON-signal ⇒ N-side IGBT gate remains OFF.
a3. While P-side ON-signal remains ⇒ P-side IGBT gate remains ON.
a4. N-side normal ON-signal ⇒ N-side IGBT gate turns ON.
RECOMMENDED I/O INTERFACE CIRCUIT
(Fig. 7)
FO
Vamp
GND
ASIPM5V
5V
VD(15V)
CPU
5.1kΩ
10kΩ
0.1nF
Up, Vp, Wp, Un, Vn, Wn
This datasheet has been download from:
www.datasheetcatalog.com
Datasheets for electronics components.
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