Hybrid Assistant Report

Info
Car model	IS300h
VIN	JTHBH5D2805------
Odometer	131,232
Generated at	19/08/2017 00:12:13
Version	HA:95 HR:42

Index

Trip summary
Device info
SOC Statistics
High Voltage Battery Statistics
High Voltage Battery Health
Temperature
Trip
Engine
Fuel Trims
BSFC Statistics
Braking
Car Driving
Maps
Driver Evaluation
Notes

Trip summary

Time
Start	11/08/2017 09:13:18
Finish	11/08/2017 11:59:46

Trip
	Total	EV	EV %
Distance	304.29 km	14.31 km	4%
Time	2:46:27	15:06	9%
Moving	2:42:44	10:48	8%

Speed
Average	111 km/h
Moving Average	112 km/h
EV Average	49 km/h
Max	201 km/h

Environment
Start SOC	61.18%
End SOC	69.80%
Avg Ambient Temperature	13°C
Altitude Delta	-62

Fuel
Consumption	8.010 L/100km
Usage	24.375 L
Cost	32.175

Trip summary values are detailed by Time, Moving and EV.
Time is the total trip time.
Moving stats regards only the fraction of time while the car was not standing still.
EV stats are accounted only when the petrol engine is stopped.

Device info

Phone
Manufacturer	asus
Model	Nexus 7
Product	razor
Android SDK	19
Hostname	Nexus 7
Screen	1920x1104
Scale	2

OBD
Connection type	Bluetooth
Model	OBDLink LX
MAC Address	00:04:3E:08:3D:00
Name	ELM327 v1.3a
Manufacturer	SCANTOOL.NET LLC
Firmware	STN1155 v3.4.1

Requests per second
Average	27
Start	29
End	0
Delta	-29
Min	0
Max	40

Sampling
Start time	11/08/2017 09:13:18
End time	11/08/2017 11:59:46
Duration	2:46:27
Samples	45228
Average	0.22 sec
Standard deviation	0.05 sec
Disconnections	0
Corrupted frames	0/393,889

Information about phone and OBD adapter.
The sampling average is the time taken for reading all sensors, in seconds: the lowest, the fastest Hybrid Assistant will run.
Speed is mainly affected by OBD adapter and by other apps running on the phone.

SOC Statistics

SOC

SOC
Average	63.77%
Start	61.18%
End	69.80%
Delta	8.63%
Min	45.10%
Max	80.00%
Standard deviation	5.33%

Variations
Difference from optimum	3.77%
SOC gained from brakings	158.82%
SOC gained from coasting	190.59%
Total SOC gained	349.41%
SOC charged by ICE	49.02%

High Voltage Battery Statistics

Levels
	Current	Voltage
Avg	-0.66 A	260.83 V
Min	-103.07 A	207.00 V
Max	140.07 A	310.00 V

Power
	Power	Charge Limit	Discharge Limit
Avg	-0.450 kW	-26.134 kW	23.968 kW
Start	-0.021 kW	-25.500 kW	23.000 kW
End	0.280 kW	-22.500 kW	24.000 kW
Min	-30.298 kW	-28.500 kW	23.000 kW
Max	31.669 kW	0.000 kW	24.000 kW

Energy
Total energy from the battery	5.625 kWh
Total energy to the battery	6.870 kWh
Battery energy balance	1.246 kWh
Average services consumption	0.528 kW

Average Power Usage

Plot of power required to keep a given speed.
Values are collected only when a constant speed is maintained long enough to have a consistent reading, so a trip with many different speeds may not gather enough data to plot.
Since required energy is heavily influenced by road slope, you should drive on a plain road to have a correct reading.

Power Distribution

Energy Balance

CCL and DCL

Charge and discharge kW limits for the battery.
These values may change with battery level and temperature.
When the battery is nearly full, charge limit is reduced.
On low temperatures, charge and discharge limits are reduced to preserve battery life.

High Voltage Battery Health

Be sure to follow the guideline for HV Check as specified on the official website.

No HV Health data found.

Temperature

Powertrain Temperature

Temperature
	Ambient	Coolant	Inverter	MG
Avg	13°C	83°C	28°C	69°C
Min	12°C	40°C	16°C	23°C
Max	16°C	90°C	51°C	94°C

Time to reach given temperature
Coolant Temperature	Time
50°C	0:56 sec
60°C	2:12 sec
65°C	2:34 sec
70°C	2:44 sec
90°C	2:29:15 sec

HV Battery Temperature Sensors
Sensor	In	1	2	3
% Max	-	51%	95%	0%
Max	25°C	45°C	45°C	42°C
Avg	22°C	35°C	36°C	34°C
Min	19°C	22°C	25°C	23°C

Temperatures for each car component.
Engine coolant temperature is the water temperature, while inverter and MG is the actual component temperature.
For inverters and MGs, only the most significant value among all components is shows.
HV Battery has multiple sensors: usually the inner ones are higher that the outer ones. % Max shows time percentage the specified sensor was the highest of the pack.

Trip

Elevation Profile

Altitude
Avg	255
Start	265
End	203
Min	90
Max	539
Upward	20,936
Downward	21,065
Altitude Delta	-62

Speed

Speed
Average	111 km/h
Moving Average	112 km/h
EV Average	49 km/h
Max	201 km/h

Engine

	RPM	Load	Power	Timing
Avg	1,992	74%	27.815kW	26°
Max	6,060	100%	138.187kW	54°
Min	-	-	-	-15°

Ignitions
Total	47
Short	27

RPM

Instant Fuel Consumption

Consumption Map

Fuel usage over distance

Energy
Energy from the petrol engine	69.54 kWh
Energy Consumption	22.44 kWh/100km
Fuel Consumption	8.01 L/100km
Fuel Usage	24.375 L

Power Map

Engine
State	%	Longest Time
ICE Running	91%	11:23 sec
ICE Spinning	13%	1:07 sec
ICE Off	22%	1:18 sec

EV Statistics
Trip Length	304.29 km
EV Range	14.31 km
Excessive EV events	11

EV States
State	%	Longest Time
EV	9%	1:18 sec
EV traction	2%	0:19 sec
Excessive EV	0%	0:02 sec

Fuel Trims

Fuel Trim

Fuel Trims are the percentage of change in fuel over time.
The engine control unit keeps proper air:fuel ratio by fine-tuning the amount of fuel going into the engine.

Fuel Trim Map

For each RPM value of the petrol engine, the applied Fuel Trim plotted as a dot.
This map can be used to verify LGP-operating engines working condition.

Fuel Trim
	Short Term	Long Term	Effective
Avg	1%	-4%	-3%
Min	-17%	-15%	-32%
Max	13%	4%	12%

BSFC Statistics

Brake specific fuel consumption (BSFC) is a measure of the fuel efficiency of an engine that burns fuel and produces rotational power.

BSFC

BSFC Absolute Value

The average BSFC value is plotted with a colored dot.
Range of BSFC excursion is plotted with a green line, so the shorter the line is, the more precise the BSFC value.

BSFC for kW

For each kW range of the petrol engine, the produced BSFC value is plotted as a dot. Light colored range depicts full value excurtion, while darker color plots standard deviation from average.
Values are collected only when engine is at working temperature.

BSFC Map

BSFC
Average	377
Standard deviation	728

Braking

Brakings	133
Good Brakings	37
Bad Brakings	88
Mixed Brakings	8
Braking Efficiency	30.83 %
Braking while moving	7%
Braking while moving	0:38 sec
Total energy recovered by braking	3.567 kWh

Recovery by braking

Recovery by coasting

Car Driving

State	%	Longest Time
Pulse	5%	0:04 sec
Glide	1%	0:10 sec
Approximate Glide	1%	0:07 sec
Coasting	16%	1:07 sec
Heretical	31%	2:59 sec
Accelerator pressed	78%	5:11 sec
Accelerating	52%	0:56 sec
Moving	99%	2:00:06 sec

Car operational state statistics during the trip.
States are expressed as percentage over the entire trip time and longest time span the state persisted.

Pulse: accelerating with nearly all ICE power given to traction.

Glide: cruising with no electrical or mechanical traction (exact evaluation using Hybrid System Indicator ).

Approximate Glide: cruising with no electrical or mechanical traction (approximate evaluation).

Coasting: cruising with no accelerator or brake applied.

Heretical: cruising with MG1 electric motor providing traction.

Accelerator pressed: accerator pedal is pressed, even if not actually accelerating.

Accelerating: car speed is increasing.

Moving: car is not stopped.

Power Meter
Zone	%	Longest Time
PWR	20%	1:34 sec
Upper ECO	52%	3:20 sec
Lower ECO	8%	1:22 sec
CHG	21%	1:21 sec

Maps

EV Map

Instant Consumption Map

Brake Map

Driver Evaluation

Accelerator Nervousness	1.82
Braking Efficiency	30.83%
Inefficient Ignitions	27/47

Accelerator Nervousness: Variability of the accelerator pedal usage. Higher values indicate a nervous driving style

Braking Efficiency: Ability to use regenerative braking

Inefficient Ignitions: Number of engine ignitions that lasted less than 5 seconds

Notes

Point size on scatter charts is proportional to number of samples: a small, well defined dot represent a higher confidence value than a bigger, faint dot.