Hybrid Assistant Report

Info
Car model IS300h
VIN JTHBH5D2805------
Odometer 133,620
Generated at 29/10/2017 22:09:57
Version HA:100 HR:47


Index


Trip summary

Time
Start 28/10/2017 17:22:03
Finish 28/10/2017 18:12:14

Trip
Total EV % No Fuel %
Distance 43.70 km 8.08 km 18% 11.29 km 25%
Time 50:10 22:33 46% 24:28 49%
Moving 45:04 16:23 36% 19:37 44%

Speed
Average 53 km/h
Moving Average 59 km/h
EV Average 20 km/h
Max 136 km/h

Environment
Start SOC 0.00%
End SOC 57.65%
Avg Ambient Temperature 14°C
Altitude Delta 303

Fuel
Consumption 8.946 L/100km
Usage 3.910 L
Cost 5.161

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.
No Fuel sums EV driving with the petrol engine running without fuel like coasting at high speed or driving down a slope.


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 v4.3.0

Requests per second
Average 28
Start 29
End 0
Delta -29
Min 0
Max 38

Sampling
Start time 28/10/2017 17:22:03
End time 28/10/2017 18:12:14
Duration 50:10
Samples 14112
Average 0.21 sec
Standard deviation 0.05 sec
Disconnections 0
Corrupted frames 0/122,807

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

30 40 50 60 70 80 90 -110 -67 -23 20 63 107 150 0 17:22:03 17:27:37 17:33:12 17:38:46 17:44:21 17:49:55 17:55:30 18:01:05 18:06:39 18:12:14 Time SOC Battery Current SOC Battery Current

SOC
Average 58.26%
Start 0.00%
End 57.65%
Delta 57.65%
Min 0.00%
Max 78.43%
Standard deviation 8.24%

Variations
Difference from optimum -1.74%
SOC gained from brakings 56.47%
SOC gained from coasting 27.45%
Total SOC gained 83.92%
SOC charged by ICE 17.65%


High Voltage Battery Statistics

Levels
Current Voltage
Avg -0.41 A 256.09 V
Min -105.60 A 201.00 V
Max 149.14 A 306.50 V

Power
Power Charge Limit Discharge Limit
Avg -0.365 kW -22.542 kW 23.585 kW
Start -0.018 kW -28.500 kW 24.000 kW
End 0.367 kW -12.000 kW 24.000 kW
Min -29.713 kW -28.500 kW 20.500 kW
Max 31.673 kW 0.000 kW 24.000 kW

Energy
Total energy from the battery 1.694 kWh
Total energy to the battery 1.978 kWh
Battery energy balance 0.284 kWh
Average services consumption 0.922 kW

Average Power Usage

0 6 12 18 24 30 36 42 48 54 60 0 20 40 60 80 100 120 140 160 km/h kW

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

-40 -4 32 68 104 140 17:22:03 17:27:37 17:33:12 17:38:46 17:44:21 17:49:55 17:55:30 18:01:05 18:06:39 18:12:14 Time Speed/Power Speed Engine power HV Battery Power

Energy Balance

0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 0 1.4 2.9 4.3 5.7 7.1 8.6 10 11.4 12.9 14.3 15.7 17.1 18.6 20 17:22:03 17:27:37 17:33:12 17:38:46 17:44:21 17:49:55 17:55:30 18:01:05 18:06:39 18:12:14 Time Speed Energy (kWh) Speed Energy

CCL and DCL

30 40 50 60 70 80 -40 -8 24 56 88 120 0 17:22:03 17:27:37 17:33:12 17:38:46 17:44:21 17:49:55 17:55:30 18:01:05 18:06:39 18:12:14 Time SOC Power (kW) SOC Battery Discharge Current Limit Battery Charge Current Limit HV Battery Power

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

0 10 20 30 40 50 60 70 80 90 17:22:03 17:27:37 17:33:12 17:38:46 17:44:21 17:49:55 17:55:30 18:01:05 18:06:39 18:12:14 Time Temperature Engine Coolant Temperature Inverter Temperature Battery Temperature MG Temperature Battery Inhaling Temperature Ambient Temperature

Temperature
Ambient Coolant Inverter MG
Avg 14°C 76°C 27°C 61°C
Min 0°C 46°C 18°C 42°C
Max 20°C 90°C 49°C 78°C

Time to reach given temperature
Coolant Temperature Time
40°C 0:28 sec
50°C 0:28 sec
60°C 10:59 sec
65°C 12:02 sec
70°C 12:11 sec
90°C 33:40 sec

HV Battery Temperature Sensors
Sensor In 1 2 3
% Max - 16% 100% 0%
Max 28°C 46°C 47°C 43°C
Avg 23°C 37°C 38°C 35°C
Min 22°C 32°C 35°C 32°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 shown.
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

100 212 324 436 548 660 0 2.2 4.5 6.7 8.9 11.2 0 4.4 8.7 13.1 17.5 21.9 26.2 30.6 35 39.3 43.7 km m kWh

Altitude
Avg 286
Start 143
End 446
Min 104
Max 658
Upward 12,923
Downward 12,786
Altitude Delta 303


Speed

0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 30 34 37 41 44 48 51 55 59 62 66 69 73 76 80 17:22:03 17:27:37 17:33:12 17:38:46 17:44:21 17:49:55 17:55:30 18:01:05 18:06:39 18:12:14 Time Speed SOC Speed SOC

Speed
Average 53 km/h
Moving Average 59 km/h
EV Average 20 km/h
Max 136 km/h


Engine

RPM Load Power Timing
Avg 1,866 72% 25.779kW 15°
Max 5,130 100% 118.970kW 54°
Min - - - -15°

Ignitions
Total 54
Short 40

RPM

0 1200 2400 3600 4800 6000 -20 4 28 52 76 100 0 17:22:03 17:27:37 17:33:12 17:38:46 17:44:21 17:49:55 17:55:30 18:01:05 18:06:39 18:12:14 Time RPM Engine Load/Ignition Timing RPM Engine Load Ignition Timing

Instant Fuel Consumption

0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 17:22:03 17:27:37 17:33:12 17:38:46 17:44:21 17:49:55 17:55:30 18:01:05 18:06:39 18:12:14 Time Speed Instant Fuel Consumption Speed Instant Fuel Consumption

Consumption Map

0 1.9 3.8 5.7 7.6 9.5 11.4 13.3 15.2 17.1 19 0 20 40 60 80 100 120 140 km/h L/100km

Fuel usage over distance

0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 0 4.4 8.7 13.1 17.5 21.9 26.2 30.6 35 39.3 43.7 Km Km/h L/100km Speed Fuel from trip start Fuel over last Kilometer

Energy
Energy from the petrol engine 11.44 kWh
Energy Consumption 25.53 kWh/100km
Fuel Consumption 8.95 L/100km
Fuel Usage 3.910 L


Power Map

0 10 20 30 40 50 60 70 80 90 100 110 120 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 RPM kW

Engine
State % Longest Time
ICE Running 54% 6:17 sec
ICE Spinning 7% 1:41 sec
ICE Off 52% 4:37 sec

EV Statistics
Trip Length 43.70 km
EV Range 8.08 km
Excessive EV events 78

EV States
State % Longest Time
EV 46% 4:37 sec
EV traction 9% 0:33 sec
Excessive EV 6% 0:09 sec


Fuel Trims

Fuel Trim

-20 -10 0 10 20 17:22:03 17:27:37 17:33:12 17:38:46 17:44:21 17:49:55 17:55:30 18:01:05 18:06:39 18:12:14 Time Fuel Trim % Long Term Fuel Trim Short Term Fuel Trim Effective 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

-20 -15 -10 -5 0 5 10 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 RPM %

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% -1% 0%
Min -14% -13% -27%
Max 14% 4% 11%


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

0 50 100 150 200 250 0 500 1000 1500 2000 2500 3000 3500 4000 4500 5000 5500 6000 Engine Speed [RPM] Engine Torque [Nm] 5kW 10kW 15kW 20kW 30kW 40kW 50kW 60kW 70kW 80kW 90kW 100kW 110kW 120kW 130kW 140kW 150kW Engine Off Low Efficiency Medium Efficiency High Efficiency Best Efficiency

BSFC Absolute Value

0 10 20 30 40 50 60 70 80 90 100 110 120 130 140 200 206 211 217 223 229 234 240 246 251 257 263 269 274 280 17:22:03 17:27:37 17:33:12 17:38:46 17:44:21 17:49:55 17:55:30 18:01:05 18:06:39 18:12:14 Time Speed/Temperature BSFC Speed Engine Coolant Temperature BSFC

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

200 208 216 224 232 240 248 256 264 272 280 0 15 30 45 60 75 90 105 120 kW g/kWh

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

43.56 43.58 43.61 43.63 43.66 43.68 43.71 43.74 43.76 43.79 43.81 3.11 3.15 3.2 3.24 3.28 3.33 3.37 3.42 3.46 3.5 3.55 Longitude Latitude Engine Off Low Efficiency Medium Efficiency High Efficiency Best Efficiency

BSFC
Average 522
Standard deviation 1,269


Braking
Brakings 108
Good Brakings 51
Bad Brakings 48
Mixed Brakings 9
Braking Efficiency 51.39 %
Braking while moving 16%
Braking while moving 0:21 sec
Total energy recovered by braking 1.235 kWh

Recovery by braking

-30 -25 -20 -15 -10 -5 0 0 20 40 60 80 100 120 140 160 km/h kW

Recovery by coasting

-30 -25 -20 -15 -10 -5 0 0 20 40 60 80 100 120 140 160 km/h kW

Car Driving

State % Longest Time
Pulse 4% 0:01 sec
Glide 1% 0:02 sec
Approximate Glide 0% 0:02 sec
Coasting 19% 1:41 sec
Heretical 5% 0:29 sec
Accelerator pressed 52% 4:18 sec
Accelerating 46% 0:47 sec
Moving 87% 20:34 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 17% 0:38 sec
    Upper ECO 22% 1:46 sec
    Lower ECO 31% 1:26 sec
    CHG 30% 1:11 sec


    Maps

    EV Map

    43.56 43.58 43.61 43.63 43.66 43.68 43.71 43.74 43.76 43.79 43.81 3.11 3.15 3.2 3.24 3.28 3.33 3.37 3.42 3.46 3.5 3.55 Longitude Latitude Engine Running EV Point size is proportional to applied power

    Instant Consumption Map

    43.56 43.58 43.61 43.63 43.66 43.68 43.71 43.74 43.76 43.79 43.81 3.11 3.15 3.2 3.24 3.28 3.33 3.37 3.42 3.46 3.5 3.55 Longitude Latitude Engine Off less than 6L/100km less than 8L/100km less than 10L/100km more than 10L/100km

    Brake Map

    43.56 43.58 43.61 43.63 43.66 43.68 43.71 43.74 43.76 43.79 43.81 3.11 3.15 3.2 3.24 3.28 3.33 3.37 3.42 3.46 3.5 3.55 Longitude Latitude Brake off Regenerative braking Friction braking

    Driver Evaluation
    Accelerator Nervousness 2.34
    Braking Efficiency 51.39%
    Inefficient Ignitions 40/54

  • 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.