GM4500 Jeopardy Jeopardy Template

Components

Thermal systems

Safety Systems

Charging

100

This component distributes HV power throughout the vehicle

HV PDU

100

This oil must be used in Lightning's electrically driven AC compressors

POE

100

This internal component is responsible for disconnecting the batteries from the HV bus during a normal shutdown

Contactors

100

This type of charging uses standard 120V AC wall power

Level 1 *or* L1

200

This component is responsible for converting ~400V to ~12V to run the low voltage systems

DCDC *or* DC to DC Converter

200

This coolant loop uses the OEM radiator and fans for cooling

PETM *or* Power Electronics Thermal Management

Why?

200

Removing this item breaks the HV circuit within the battery pack

MSD *or* Manual Service Disconnect

200

This type of charging locks the charge handle in place while current is being delivered

Level 3 *or* L3

300

This on-board component is responsible for rectifying AC to DC for charging

Level 2 charger

300

If the cabin AC isn't working, this component might be susceptible to overheating

Batteries

300

The low voltage signal line is used to ensure all HV connections are closed

HVIL (High Voltage Interlock Loop)

300

Charge speeds are fastest within this SoC range

~20-~80%

400

This component has a HV DC connection, 12V supply connection, and a HV AC connection

Netpower(s) *or* Combo unit *or* DCDC/L2

400

This coolant loop interfaces with a chiller for increased cooling capability

BTMS *or* Battery Thermal Management

400

High voltage leakage to the chassis causes this type of failure

Isolation

400

The reason to equip two level 2 chargers instead of a single

Double the charge current *or* half the charge time

500

Energy flow through this component can be from a HV DC input to HV AC output, OR a HV AC input to HV DC output

Traction Inverter

500

On the GM4500, the PETM coolant loop provides thermal control to these 4 components

Inverter, Motor, DCDC/OBCM (x2), Gearbox

500

These two circuits/systems are responsible for dissipating HV energy within the HV bus

Active and passive discharge circuits

500

In addition to the charger and batteries, these 2 other subsystems/functions might also be running during a keyed-off charge session

BTMS, DCDC