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6MBP50RJ120
IGBT IPM R-series 1200V class
Features
* Temperature protection provided by directly detecting the junction temperature of the IGBTs. * Low power loss and soft switching. * High performance and high reliability IGBT with overheating protection. * Both P-side and N-side alarm output available. * Higher reliability because of a big decrease in number of parts in built-in control circuit.
1200V / 50A 6 in one-package
Maximum ratings and characteristics
Absolute maximum ratings(at Tc=25C unless otherwise specified)
Item Bus voltage DC Surge Short operating Symbol VDC VDC(surge) VSC VCES IC ICP -IC PC VCC Vin Iin VALM IALM Tj Topr Tstg Viso Rating Min. Max. 0 0 200 0 -0.5 -0.5 -0.5 -20 -40 900 1000 800 1200 50 100 50 357 20 Vcc+0.5 3 Vcc 20 150 100 125 AC2500 3.5 3.5 Unit V V V V A A A W V V mA V mA C C C V N*m N*m
Collector-Emitter voltage *1 Collector current
Inverter
DC 1ms Duty=98.0% *2 Collector power dissipation One transistor *3 Supply voltage of Pre-Driver *4 Input signal voltage *5 Input signal current Alarm signal voltage *6 Alarm signal current *7 Junction temperature Operating case temperature Storage temperature Isolating voltage (Terminal to base, 50/60Hz sine wave 1min.) Screw torque Terminal (M5) Mounting (M5)
Note *1 : Vces shall be applied to the input voltage between terminal P and U or u or W, N and U or V or W *2 : 125C/FWD Rth(j-c)/(Ic x VF MAX)=125/0.85/(50 x 3.0) x 100=98.0% *3 : Pc=125C/IGBT Rth(j-c)=125/0.35=357W [Inverter] *4 : VCC shall be applied to the input voltage between terminal No.4 and 1, 8 and 5, 12 and 9, 14 and 13 *5 : Vin shall be applied to the input voltage between terminal No.3 and 1, 7 and 5, 11 and 9, 16,17,18 and 13. *6 :VALM shall be applied to the voltage between terminal No.2 and 1, No6 and 5, No10 and 9, No.19 and 13. *7 : IALMshall be applied to the input current to terminal No.2,6,10 and 19.
6MBP50RJ120
Electrical characteristics (at Tc=Tj=25C, Vcc=15V unless otherwise specified.) Main circuit
Item Collector current at off signal input Collector-Emitter saturation voltage Forward voltage of FWD Symbol ICES VCE(sat) VF ton toff trr Condition VCE=1200V Vin terminal open. Ic=50A Terminal Chip -Ic=50A Terminal Chip VDC=600V,Tj=125C IC=50A Fig.1, Fig.6 VDC=600V, IF=50A Fig.1, Fig.6 Min. 1.2 Typ. 1.9 2.3 -
IGBT-IPM
Max. 1.0 2.6 3.0 3.6 0.3
Unit mA V V s
Turn-on time Turn-off time Reverse recovery time
Inverter
Control circuit
Item Supply current of P-line side pre-driver(one unit) Supply current of N-line side pre-driver Input signal threshold voltage (on/off) Input zener voltage Alarm signal hold time Symbol Iccp ICCN Vin(th) VZ tALM Condition Switching Trequency : 0 to 15kHz Tc=-20 to 125C Fig.7 ON OFF Rin=20k ohm Tc=-20C Fig.2 Tc=25C Fig.2 Tc=125C Fig.2 Min. Typ. Max. Unit mA mA V V V ms ms ms ohm 18 65 1.00 1.35 1.70 1.25 1.60 1.95 8.0 1.1 2.0 4.0 1425 1500 1575
Limiting Resistor for Alarm
RALM
Protection Section ( Vcc=15V)
Item Over Current Protection Level of Inverter circuit Over Current Protection Delay time SC Protection Delay time IGBT Chip Over Heating Protection Temperature Level Over Heating Protection Hysteresis Over Heating Protection Protection Temperature Level Over Heating Protection Hysteresis Under Voltage Protection Level Under Voltage Protection Hysteresis Symbol IOC tDOC tSC TjOH TjH TcOH TcH VUV VH Condition Tj=125C Tj=125C Tj=125C Fig.4 Surface of IGBT chips Min. 75 150 VDC=0V, IC=0A CaseTemperature 110 11.0 0.2 Typ. 10 Max. 12 125 12.5 Unit A s s C C C C V V
20 20 0.5
Thermal characteristics( Tc=25C)
Item Junction to Case thermal resistance *8 Case to fin thermal resistance with compound *8 : (For 1 device, Case is under the device) Inverter IGBT FWD Symbol Rth(j-c) Rth(j-c) Rth(c-f) Min. Typ. 0.05 Max. 0.35 0.85 Unit C/W C/W - C/W
Noise Immunity ( VDC=300V, Vcc=15V, Test Circuit Fig.5)
Item Common mode rectangular noise Common mode lightning surge Condition Pulse width 1s, polarity ,10minuets Judge : no over-current, no miss operating Rise time 1.2s, Fall time 50s Interval 20s, 10 times Judge : no over-current, no miss operating Min. 2.0 5.0 Typ. Max. Unit kV kV
Recommendable value
Item DC Bus Voltage Operating Supply Voltage of Pre-Driver Screw torque (M5) Symbol VDC VCC Min. 13.5 2.5 Typ. 15.0 Max. 800 16.5 3.0 Unit V V Nm
Weight
Item Weight Symbol Wt Min. Typ. 450 Max. Unit g
6MBP50RJ120
Vin
Vin(th) On Vin(th) 90% 50%
IGBT-IPM
trr
Ic
90% 10% ton toff
Figure 1. Switching Time Waveform Definitions
/Vin Vge (Inside IPM ) Fault (Inside IPM )
off on Gate On Gate Off on off
normal alarm tALM > Max. 1 tALM >
Max.
/ALM
2
t ALM 2ms(typ.) 3
Fault : Over-current,Over-heat or Under-voltage
Figure 2. Input/Output Timing Diagram
tsc
Ic IALM
Ic IALM
Ic IALM
Figure.4 Definition of tsc
Vcc
20 k
DC 15V
P P IPM IPM
L
+ +
DC 300V
Vin
HCPL 4504
VccU DC 15V
SW1 20k
P IPM U
CT
GND
N
Ic
VinU GNDU
AC200V
V DC 15V
SW2 20k
+
Figure 6. Switching Characteristics Test Circuit
Vcc VinX GND
W
4700p
Icc A
Noise
Vcc P IPM Vin U V W GND N
N
DC 15V
Earth
Cooling Fin
P.G +8V fsw
Figure 5. Noise Test Circuit
Figure 7. Icc Test Circuit
6MBP50RJ120
Block diagram
P VccU 4 VinU
3
IGBT-IPM
ALMU 2 RALM 1.5k GNDU 1 VccV VinV
8 7
Pre - Driver Vz U
ALMV 6 RALM 1.5k GNDV 5 VccW VinW ALMW
12
Pre- Driver Vz V
11 10
Pre- Driver RALM 1.5k Vz W
GNDW 9 Vcc VinX
14
16
Pre- Driver Vz GND
13
VinY
17
Pre- Driver Vz
Pre-drivers include following functions
VinZ
18
Pre- Driver Vz NC VinDB B
1.Amplifier for driver 2.Short circuit protection 3.Under voltage lockout circuit 4.Over current protection 5.IGBT chip over heating protection
N
15
ALM
19
Ov er heating protection circuit
RALM 1.5k
Outline drawings, mm
109 95 13.8
_ +0.3 _ +1 _ +0 . 3
66.44
10
_ 6 + 0 . 15 _ +0 . 2
_ 3.22 + 0 . 3
10
_ 6 + 0 . 15
_ +0 . 2
10
_ +0 . 2
12
_ +0 . 25
4- O5 /
_ 6 + 0 . 15
_ 2 +0 . 1
2
_ +0.3
1
B
_ +0.3
88
_ +1
74
20 10
P
20
N
17
W
V
U
0.5
0.5
24
26
19- 0.5
26
2- O 2.5 /
6 - M5
7
9 22
+1 . 0 -0.3
22
17
12.5
+1 . 0 -0.3
+1 . 0 -0.2
17
31 - 0 . 3
+0 . 6
Mass : 450g
8
6MBP50RJ120
Characteristics
Control circuit characteristics (Respresentative)
Power supply curr ent vs. Switching frequency Tj=100C
40 P-side 35 V cc = 17V V cc = 15V V cc = 13V 2.5
IGBT-IPM
Input signal threshold voltage vs. P ower s upply voltage
T j= 25 C Tj= 125 C
Powe r supply current : Icc (mA)
Input s ignal thres hold voltage
N-side
2
: Vin(on), Vin(off) (V)
30 25 20 15
} Vin(off) 1.5 } Vin(on)
1
V cc = 17V 10 5 0 0 5 10 15 20 25 V cc = 15V V cc = 13V
0.5
0 12 13 14 15 16 17 18
Sw itc hing frequenc y : fs w (kHz)
Po we r s up ply volta ge : Vc c ( V)
U nder voltage vs. Junction temperature
14 1
U nde r voltage hysterisis vs. Jnction tempe ra tur e
12
Un der vo ltage hysterisis : VH (V)
0.8
Under voltag e : VUVT (V)
10
8
0.6
6
0.4
4
0.2 2
0 20 40 60 80 1 00 120 1 40
0 20 40 60 80 1 00 120 1 40
Junction tem perat ure : Tj (C)
Junc tion tem pe rat ure : Tj (C)
Alar m ho ld time vs . P owe r s upply voltage
3 2 00
O ve r heating char acte ris tic s Tc OH ,TjOH ,T cH ,TjH vs. Vc c
O ver heating pro tection : TcO H,TjO H (C) O H hysterisis : TcH,TjH (C)
Alarm hold time : tAL M (mSe c)
2.5 Tj=1 25 C 2 T j= 25 C 1.5
TjO H 1 50 T cO H 1 00
1
50 T cH,TjH
0.5
0 12 13 14 15 16 17 18
0 12 13 14 15 16 17 18
Po we r sup ply volt age : Vc c ( V)
Po we r s up ply vo lta ge : Vc c ( V)
6MBP50RJ120
Main circuit characteristics (Respresentative)
IGBT-IPM
Co lle ctor curr ent vs. Colle ctor -E mitte r voltage Tj=25C (C hip)
80 70 V cc = 17V V cc= 15 V
Co lle ctor curr ent vs. Colle ctor -E mitte r voltage Tj=2 5 C (Te rm inal)
80 70 Vcc= 17 V V cc = 13V Vcc= 15V
Co lle cto r Cur re nt : Ic ( A)
V cc= 13 V
Co lle cto r Cur rent : Ic (A)
60 50 40 30 20
60 50 40 30 20
10 10 0 0 0 0 .5 1 1.5 2 2.5 3 C ollector -Emit ter vo lta ge : V ce ( V) 0 C ollector -Emit ter vo lta ge : Vce (V) 0 .5 1 1 .5 2 2.5 3
Co lle ctor curr ent vs. Colle ctor -E mitte r voltage Tj=12 5 C(C hip)
80 70 V cc= 17 V Vcc= 15 V
Co lle ctor curr ent vs. Colle ctor -E mitte r voltage Tj=12 5C (Term inal)
80 70 Vcc= 17 V V cc = 13V 60 50 40 30 20 10 0 V cc= 15 V
Co lle cto r Curre nt : Ic ( A)
60 50 40 30 20 10 0 0 0 .5 1 1.5 2 2.5 3
Colle ct or Curre nt : I c ( A)
Vcc= 13V
0
0 .5
1
1.5
2
2.5
3
C olle ct or- Emitt er vo lta ge : V ce ( V)
C ollector -Emit ter vo lta ge : Vce (V)
Fo rward curre nt vs. Fo rwar d voltage (C hip)
80 70 60 50 40 30 20 10 0 0 0.5 1 1 .5 2 2 .5 80 70 60 50 40 30 20 10 0 0
Fo rward curre nt vs. Fo rwar d voltage (T ermina l)
1 25 C 25C
125 C
25 C
F or wa rd Current : I f (A)
Forw ard Current : If (A)
0 .5
1
1.5
2
2.5
3
F or wa rd vo lta ge : V f ( V)
F or wa rd vo ltag e : V f ( V)
6MBP50RJ120
IGBT-IPM
Switc hing Loss vs. C ollector C urrent Edc=6 00 V,Vc c=15V ,Tj=2 5 C
25 25
Switc hing Los s vs. C ollec tor C ur re nt Edc=600V,Vcc=15V,Tj=125 C
Sw itching loss : Eon,E off,Err (mJ/cycle)
S wit ching lo ss : E on,E off,Er r (mJ/c yc le)
E on 20
20
15 Eon 10 Eo ff 5 Err 0 0 10 20 30 40 50 60 70 80
15
10
Eoff
5
E rr
0 0 10 20 30 40 50 60 70 80
Colle ctor current : Ic (A)
Colle ctor cur rent : Ic (A)
Reversed bias ed safe operating area Vcc=15V,Tj 125 C
70 0
Trans ient thermal resistance
1 FW D
60 0
Thermal re sistance : Rt h(j-c) ( C/ W )
I GB T
C ollector cu rren t : Ic (A)
50 0
40 0 SCS O A (non-repetitive pu ls e)
0 .1
30 0
20 0
10 0
RBS O A (R e petit ive pu lse)
0 0 20 0 40 0 600 800 1 000 1 20 0 140 0
0. 01 0 .001 0.01 0 .1 1
C ollector-E m itter volta ge : V ce (V)
P ulse width :P w (se c)
Power dera ting fo r IGB T (per device)
400 1 50
Power de ra ting for F W D (pe r devic e)
Collecter Pow er Dissipation : Pc (W )
350 300 250 200 150 100 50 0 0 20 40 60 80 1 00 120 1 40 160
Collec ter Pow er Dissipation : Pc (W )
1 25
1 00
75
50
25
0 0 20 40 60 80 1 00 120 1 40 1 60
Case Tem pe ratur e : Tc (C)
Case Temper ature : Tc (C)
6MBP50RJ120
IGBT-IPM
S witching time vs. C ollec to r c ur rent Edc=6 00V,Vcc=15V ,Tj=25 C
1 00 00 1 00 00
S witching time vs . C ollec to r c ur re nt E dc =600V ,V cc =1 5V,Tj=12 5 C
t off
Switching time : ton,toff,tf (nSec)
t off ton
Sw itching tim e : to n, tof f,tf (nSe c)
ton 10 00
10 00
tf
tf 1 00
1 00
10 0 10 20 30 40 50 60 C ollect or curre nt : Ic (A) 70 80
10 0 10 20 30 40 50 60 70 80
C ollect or curre nt : Ic (A)
Reverse re co ve ry char acte ris tic s trr,Irr vs. IF
10 00
Reverse recover y c urr ent : Irr (A) Rever se re co very t im e : trr (nSec)
t rr1 25 C t rr25 C 1 00
I rr1 25 C Irr 25 C 10 0 10 20 30 40 50 60 70 80
For ward current : IF(A)

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