This document describes a PSpice simulation of an HEV inverter circuit. The simulation shows key voltages and currents over time, including the voltages at each switching device and phase leg, as well as the currents through each switching device. Driver circuits are also shown that provide gate signals to control the switching devices.

1. HEV Inverter Simulation using PSpice
All Rights Reserved Copyright (C) Bee Technologies Corporation 2013 1
I
VIN
600 V+
V
R5
15k
R1
15k
U11
225U_6PIN
1
2
3
4
5
6
VP WP
UD VD WD
U1
CT300DJH060
RV 2.0125
0
RW 2.0125
N
U
V
RU 2.0125
W
U10
GDRV
UD
UP
VD
VP
WD
WP
UP UD VP VD WDWP
-
+
+
-
E1
E
3
D1
DCT300DJH060
-
+
+
-
E2
E
3
-
+
+
-
E3
E
3
-
+
+
-
E4
E
3
-
+
+
-
E5
E
3
-
+
+
-
E6
E
3
0
0
0
0
0
UP
0
U2
CT300DJH060
D2
DCT300DJH060
U3
CT300DJH060
D3
DCT300DJH060
U4
CT300DJH060
L1
105uH
1 2
D4
DCT300DJH060
U5
CT300DJH060
D5
DCT300DJH060
U6
CT300DJH060
D6
DCT300DJH060
L2
105uH
1 2
L3
105uH
1 2
R2
15k
R3
15k
R4
15k
R6
15k
HI

2. All Rights Reserved Copyright (C) Bee Technologies Corporation 2013 2
Time
0s 50ms 100ms 150ms 200ms 250ms 300ms 350ms 400ms 450ms 500ms
V(HI)
0V
1.0KV
SEL>>
1 I(RU) 2 I(RV) 3 I(RW)
-1.0KA
-0.7KA
-0.4KA
-0.1KA
0.2KA
1
-600A
-300A
0A
300A
600A
2
-0.2KA
0.4KA
0.7KA
1.0KA
3
>>
1 V(U,N) 2 V(V,N) 3 V(W,N)
-1.6KV
-0.8KV
0V
1
-1.0KV
-0.4KV
0.2KV
0.8KV2
-0.4KV
0.8KV
1.4KV3
>>
1 V(U4:G,0) 2 V(U5:G,0) 3 V(U6:G,0)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
>>
1 V(U1:G,U) 2 V(U2:G,V) 3 V(U3:G,W)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
>>

3. All Rights Reserved Copyright (C) Bee Technologies Corporation 2013 3
Time
0s 20ms
V(HI)
0V
1.0KV
SEL>>
1 I(RU) 2 I(RV) 3 I(RW)
-1.0KA
-0.7KA
-0.4KA
-0.1KA
0.2KA
1
-600A
-300A
0A
300A
600A
2
-0.2KA
0.4KA
0.7KA
1.0KA
3
>>
1 V(U,N) 2 V(V,N) 3 V(W,N)
-1.6KV
-0.8KV
0V1
-1.0KV
-0.4KV
0.2KV
0.8KV2
-0.4KV
0.8KV
1.4KV3
>>
1 V(U4:G,0) 2 V(U5:G,0) 3 V(U6:G,0)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
>>
1 V(U1:G,U) 2 V(U2:G,V) 3 V(U3:G,W)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
>>

4. All Rights Reserved Copyright (C) Bee Technologies Corporation 2013 4
VIN
600
R5
15k
R14
19.88k
L11
1nH
1 2
R7
0.15
HI
L4
1nH
1 2
R1
15k
U11
225U_6PIN
1
2
3
4
5
6
R8
0.21
L5
1nH
1 2
R9
0.13
L6
1nH
1 2
R10
0.12
L7
1nH
1 2
VP WP
R11
0.15
L8
1nH
1 2
UD VD WD
U1
CT300DJH060
RV 2.0125
0
RW 2.0125
N
U
V
RU 2.0125
W
-
+
+
-
E1
E
3
D1
DCT300DJH060
-
+
+
-
E2
E
3
-
+
+
-
E3
E
3
-
+
+
-
E4
E
3
-
+
+
-
E5
E
3
-
+
+
-
E6
E
3
R15
0.11
L12
10nH
1
2
0
0
0
0
0
UP
0
U2
CT300DJH060
D2
DCT300DJH060
U3
CT300DJH060
D3
DCT300DJH060
R12
0.22
L9
1nH
1 2
U4
CT300DJH060
D4
DCT300DJH060
L1
105uH
1 2
U5
CT300DJH060
D5
DCT300DJH060
R17
0.11
L14
10nH
1
2
U6
CT300DJH060
D6
DCT300DJH060
L2
105uH
1 2
R13
17.97k
L10
1nH
1 2
L3
105uH
1 2
R18
0.1
L15
10nH
1
2
R2
15k
R3
15k
R4
15k
R19
0.21
L16
10nH
1
2
R6
15k
R20
0.21
L17
10nH
1
2
R21
0.21
L18
10nH
1
2

5. All Rights Reserved Copyright (C) Bee Technologies Corporation 2013 5
Time
0s 50ms 100ms 150ms 200ms 250ms 300ms 350ms 400ms 450ms 500ms
V(HI)
0V
1.0KV
SEL>>
1 I(RU) 2 I(RV) 3 I(RW)
-1.0KA
-0.7KA
-0.4KA
-0.1KA
0.2KA
1
-600A
-300A
0A
300A
600A
2
-0.2KA
0.4KA
0.7KA
1.0KA
3
>>
1 V(U,N) 2 V(V,N) 3 V(W,N)
-1.6KV
-0.8KV
0V
1
-1.0KV
-0.4KV
0.2KV
0.8KV2
-0.4KV
0.8KV
1.4KV3
>>
1 V(U4:G,0) 2 V(U5:G,0) 3 V(U6:G,0)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
>>
1 V(U1:G,U) 2 V(U2:G,V) 3 V(U3:G,W)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
>>

6. All Rights Reserved Copyright (C) Bee Technologies Corporation 2013 6
Time
0s 20ms
V(HI)
0V
1.0KV
1 I(RU) 2 I(RV) 3 I(RW)
-1.0KA
-0.7KA
-0.4KA
-0.1KA
0.2KA
1
-600A
-300A
0A
300A
600A
2
-0.2KA
0.4KA
0.7KA
1.0KA
3
>>
1 V(U,N) 2 V(V,N) 3 V(W,N)
-1.6KV
-0.8KV
0V1
-1.0KV
-0.4KV
0.2KV
0.8KV2
-0.4KV
0.8KV
1.4KV3
>>
1 V(U4:G,0) 2 V(U5:G,0) 3 V(U6:G,0)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
SEL>>SEL>>
1 V(U1:G,U) 2 V(U2:G,V) 3 V(U3:G,W)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
>>

7. All Rights Reserved Copyright (C) Bee Technologies Corporation 2013 7
A
Driv er_H
Driv er_GHDriv er_INPUT_H
Driv er_GND
VIN
600
A1
Driv er_H
Driv er_GHDriv er_INPUT_H
Driv er_GND
R5
15k
A2
Driv er_H
Driv er_GHDriv er_INPUT_H
Driv er_GND
R7
0.15
HI
0
VCC1
-3V
L4
1nH
1 2
VCCP
0
VCC
30V
VCCN
R1
15k
U9
Driv er_L
Driv er_GDriv er_INPUT
U12
Driv er_L
Driv er_GDriv er_INPUT
WPVPUP
U13
Driv er_L
Driv er_GDriv er_INPUT
U11
225U_6PIN
1
2
3
4
5
6
R8
0.21
L5
1nH
1 2
R9
0.13
L6
1nH
1 2
R10
0.12
L7
1nH
1 2
U1
CT300DJH060
RV 2.0125
0
RW 2.0125
N
U
V
RU 2.0125
W
U10
GDRV
UD
UP
VD
VP
WD
WP
UP UD VP
UD
VD WDWP
D1
DCT300DJH060
R15
0.11
L12
10nH
1
2
0
VCC2
-2V
0
VCCPH
VCC3
30V
U2
CT300DJH060
D2
DCT300DJH060
VCCNH
U3
CT300DJH060
D3
DCT300DJH060
U4
CT300DJH060
D4
DCT300DJH060
L1
105uH
1 2
U5
CT300DJH060
D5
DCT300DJH060
R17
0.11
L14
10nH
1
2
U6
CT300DJH060
D6
DCT300DJH060
L2
105uH
1 2
L3
105uH
1 2
R18
0.1
L15
10nH
1
2
VD
R2
15k
R3
15k
R4
15k
R19
0.21
L16
10nH
1
2
R6
15k
R20
0.21
L17
10nH
1
2
R21
0.21
WD
L18
10nH
1
2

8. Driver circuit high
All Rights Reserved Copyright (C) Bee Technologies Corporation 2013 8
R25
7
R27
4.7
R28
7
VCCNH
0
IN+
IN-
OUT+
OUT-
E8
V(%IN+, %IN-)
ETABLE
(0,0) (5,-10)
0
U12
TPCP8402
1
2
3
4 5
6
7
8
0
-
+
+
-
E2
E
1
IN+
IN-
OUT+
OUT-
E7
V(%IN+, %IN-)
ETABLE
(0,0) (5,10)
R22 11
U13A
7404
1 2
VCCPH
R23 7.3
R26
4.7
Driv er_GH
Driv er_INPUT_H
R29
1u
R30
1u
R31
1u
R32
1u
-
+
+
-
E3
E
1
0 Driv er_GND

9. Driver circuit low
All Rights Reserved Copyright (C) Bee Technologies Corporation 2013 9

10. All Rights Reserved Copyright (C) Bee Technologies Corporation 2013 10
Time
0s 4ms 8ms 12ms 16ms 20ms
V(HI)
0V
0.5KV
1.0KV
1 I(RU) 2 I(RV) 3 I(RW)
-1.0KA
-0.7KA
-0.4KA
-0.1KA
0.2KA
1
-600A
-300A
0A
300A
600A
2
-0.2KA
0.4KA
0.7KA
1.0KA
3
>>
1 V(U,N) 2 V(V,N) 3 V(W,N)
-1.6KV
-0.8KV
0V1
-1.0KV
-0.4KV
0.2KV
0.8KV2
-0.4KV
0.8KV
1.4KV3
>>
1 V(U4:G,0) 2 V(U5:G,0) 3 V(U6:G,0)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
>>
1 V(U1:G,U) 2 V(U2:G,V) 3 V(U3:G,W)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
SEL>>SEL>>

11. All Rights Reserved Copyright (C) Bee Technologies Corporation 2013 11
Time
0s 100ms 200ms 300ms 400ms 500ms
V(HI)
0V
0.5KV
1.0KV
SEL>>
1 I(RU) 2 I(RV) 3 I(RW)
-1.0KA
-0.7KA
-0.4KA
-0.1KA
0.2KA
1
-600A
-300A
0A
300A
600A
2
-0.2KA
0.4KA
0.7KA
1.0KA
3
>>
1 V(U,N) 2 V(V,N) 3 V(W,N)
-1.6KV
-0.8KV
0V
1
-1.0KV
-0.4KV
0.2KV
0.8KV2
-0.4KV
0.8KV
1.4KV3
>>
1 V(U4:G,0) 2 V(U5:G,0) 3 V(U6:G,0)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
>>
1 V(U1:G,U) 2 V(U2:G,V) 3 V(U3:G,W)
-50V
-30V
-10V
10V1
-30V
-10V
10V
30V2
-10V
30V
50V3
>>