Toyota G9200 Inverter

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The Toyota G9200 series of inverters was used on a number of vehicles, including the third generation Prius.

ICs

Markings Manufacturer Model Purpose
074Z
1069B
JRC
JRC NJM074 Quad J-FET input op-amp
2901Z
10458
JRC
JRC JRC2901
NJM2901
Single-supply quad comparator
2903Z
10696
JRC
JRC JRC2903 Single-supply dual voltage comparator
2904Z
A126G
JRC
JRC JRC2904 Dual op-amp
76F0080GC Renesas/NEC 76F0018 V850 series microcontroller. "Special Customer Version", appears to be closest in specs to V850E/CA1 model. Two on the logic board, perhaps one each for MG1 and MG2. Supported by GCC in "v850" architecture. Datasheets available at Renesas. The exact model is unknown, but select one that is 14 × 14mm with 100 pins.
VHC
32-S
D1 31
? 74VHC32 Quad 2-input OR gate
9N25
SE617
D
4M27
SE617
D
Denso SE617 Single/differential transceiver. Used to convert the CSI (clocked serial) signals (CLK/MTH/HTM) to/from +/- differential pairs, as the NEC V850 CPU only outputs a single-ended signal, and the differential pair extends this signal outside the inverter to communicate with the other ECUs.
9N29
SE874
DG
Denso? SE874 Main interface IC? Only one on the board. Possible switching power supply control IC.
AU6801N1 Tamagawa Smartcoder AU6802N1 Resolver decoders, two on the logic board underside. Likely connected to D29 to sense MG1 and MG2 rotor angle.

Connectors

This section lists the connectors found on the original factory inverter and where known, the purpose and characteristics of each pin in the connector.

A59 (Control signals)

Toyota G9200 connector A59.svg
Identifier Pin Name Connects from Purpose
A59-1 1 IGCT Junction connector A55-11, then Power Management Control ECU pins A21-2 and A22-5 ?
A59-2 2 IDH A/C Amplifier Assembly L17-27 ?
A59-3 3 VLO Power Management Control ECU pin A21-11 Unknown. When power switch on, should be below 1 V.
A59-4 4 N/C Not connected Officially not connected, actually connected to shield for REQ (pins 6/16).
A59-5 5 CLK+ Power Management Control ECU pin A22-21 ?
A59-6 6 REQ+ Power Management Control ECU pin A22-33 ?
A59-7 7 MTH+ Power Management Control ECU pin A22-30 ?
A59-8 8 HTM+ Power Management Control ECU pin A22-24 ?
A59-9 9 +B2 A59-10 (+B) Backup for pin A59-10
A59-10 10 +B A59-9, and 12 V battery via 10 A fuse and IGCT relay, switched by Power Management Control ECU pin MREL ?
A59-11 11 S 12 V battery via 5 A fuse ?
A59-12 12 NODD Power Management Control ECU pin A21-21 Inverter disable
A59-13 13 -
A59-14 14 N/C Not connected Officially not connected, actually connected to shield for CLK (pins 5/15).
A59-15 15 CLK- Power Management Control ECU pin A22-20 ?
A59-16 16 REQ- Power Management Control ECU pin A22-32 ?
A59-17 17 MTH- Power Management Control ECU pin A22-29 ?
A59-18 18 HTM- Power Management Control ECU pin A22-25 ?
A59-19 19 -
A59-20 20 -
A59-21 21 -
A59-22 22 -
A59-23 23 -
A59-24 24 -
A59-25 25 -
A59-26 26 -
A59-27 27 GND1 A59-28, and ground via A4 ?
A59-28 28 GND2 A59-27, and ground via A4 ?
A59-29 29 GI Power Management Control ECU pin A21-16, ECM pin D28-48 (G2O) Engine speed? CAN?
A59-30 30 DRN5 ? Shield for pin 29 (GI)
A59-31 31 HSDN Power Management Control ECU pin A22-31 ?
A59-32 32 DRN8 ? Shield for pin 31 (HSDN)
A59-33 33 DRN2 ? Shield for pins 7/17 (MTH+/-)
A59-34 34 DRN1 ? Shield for pins 8/18 (HTM+/-)
A59-35 35 ILK Power Management Control ECU pin A21-32 ?
A59-36 36 ILKO Ground via c2 interlock switch ?

The cable harness that connects to A59 contains an additional three wires with green insulation that are not connected to any pins in the A59 plug. There is continuity between the three pins, so at a guess it is used as some sort of interlock on one of the other ECUs to detect whether the inverter cable has been damaged.

Only one small wire carries power to both pins 9 and 10.

B1 (12 V power)

This connector supplies approx 100 amps at around 14 V DC, for powering the vehicle's 12 V system and charging the 12 V battery.

Identifier Pin Name Connects from Purpose
B1-1 1 AMD 12 V battery via 125 A fuse Supply vehicle 12 V power and charge 12 V battery

D29 (MG1/2 resolver)

These signals are inputs read from the resolvers in the MG1 and MG2 electric motors. These are used to detect the precise angle of the rotor within each motor, so that among other things, the three-phase drive current can be applied in such a way as to smoothly turn the motor without any initial jump.

Toyota G9200 connector D29.svg
Identifier Pin Name Connects from Purpose
D29-1 1 MRF MG2 pin D1-3 ?
D29-2 2 MRFG MG2 pin D1-6 ?
D29-3 3 MSN MG2 pin D1-1 ?
D29-4 4 MSNG MG2 pin D1-4 ?
D29-5 5 MCS MG2 pin D1-5 ?
D29-6 6 MCSG MG2 pin D1-2 ?
D29-7 7 GSN MG1 pin D7-2 ?
D29-8 8 GSNG MG1 pin D7-6 ?
D29-9 9 GCSG MG1 pin D7-7 ?
D29-10 10 GCS MG1 pin D7-3 ?
D29-11 11 GRF MG1 pin D7-1 ?
D29-12 12 GRFG MG1 pin D7-5 ?
D29-13 13 DRN6 ? Shield for pins 1-12

e1 (MG2 power)

This connection is used to supply power to the main MG2 electric motor, and to recover power during regenerative braking.

Toyota G9200 connector e1.svg
Identifier Pin Name Connects from Purpose
e1-1 1 W MG2 pin e2-1 (W) Phase 1 power to/from MG2 electric motor
e1-2 2 U MG2 pin e2-3 (U) Phase 2 power to/from MG2 electric motor
e1-3 3 V MG2 pin e2-2 (V) Phase 3 power to/from MG2 electric motor

E2 (Aircon power)

This connector supplies high voltage DC power for the air conditioning compressor.

Toyota G9200 connector E2.svg
Identifier Pin Name Connects from Purpose
E2-1 1 ACPB Air conditioning compressor E1-2 (PB) HV DC power for air conditioning compressor
E2-2 2 ACPE Air conditioning compressor E1-1 (PE)

f1 (MG1 power)

This connection is used to supply power to the MG1 electric motor, used for starting the combustion engine and generating electricity from it.

Toyota G9200 connector f1.svg
Identifier Pin Name Connects from Purpose
f1-1 1 W MG1 pin f2-3 (W) Phase 1 power to/from MG1 electric motor
f1-2 2 U MG1 pin f2-2 (U) Phase 2 power to/from MG1 electric motor
f1-3 3 V MG1 pin f2-1 (V) Phase 3 power to/from MG1 electric motor

T1 (HV battery in/out)

This is where the high voltage traction battery is connected. Power is drawn in to run the electric motors, and sent out when charging the battery pack.

Toyota G9200 connector T1.svg
Identifier Pin Name Connects from Purpose
T1-1 1 CEI HV battery negative via relay and switched precharge resistor HV battery power in for traction and out for recharging/regen braking
T1-2 2 CBI HV battery positive via relay

Schematics

Interfaces

Clocked Serial Interface (CSI)

The two NEC V850 CPUs on board both support Clocked Serial Interfaces (CSI). All interfaces on the chip are tagged alphabetically, and the CSI interfaces are tagged "G", so the datasheet refers to this as CSIG.

The inverter uses the CSI interface to communicate with the outside world, via Denso SE617 differential transceivers. These convert the single-ended signal line into two signals (a positive and negative version) which is better suited to noise rejection and can be sent outside the inverter.

See Toyota Inverter Clocked Serial Interface Protocol for details on the data sent over these interfaces.