Obd ii – Actron KAL9615 User Manual

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Open and Closed Loop Modes:

Open or closed loop operation refers to the way the computer is deciding how much

fuel to add to the air entering the engine. During cold start and other low temperature

situations, the computer operates in open loop mode. This means that it is relying on

a set of internal calculations and data tables to decide how much fuel to add to the

incoming air. It uses sensors such as the coolant temperature sensor (CTS), the

throttle position sensor (TPS), and the manifold absolute pressure sensor (MAP) to

determine optimum mixtures. The important difference here is that it does not check

to see if the mixtures are correct, leaving the computer adjustment loop open.
In closed loop mode, the computer still decides how much fuel to add by using the

sensors listed above, and by looking up the appropriate numbers on a data table.

However, it now checks itself to determine whether the fuel mixture is correct. It is

able to check itself by using the information provided by the oxygen sensor(s) (O2S)

in the exhaust manifold. The oxygen sensors will tell the computer if the engine is

running rich or lean, and the computer can take steps to correct the situation. In this

way, the computer closes the adjustment loop by checking itself and making neces-

sary corrections. It should be noted that the O2 sensors must be at a very high

operating temperature (approximately 650° F) before they will begin to feed informa-

tion back to the computer. This is why open loop mode is necessary—to give the O2

sensors time to warm up to operating temperature.
As long as the engine and O2 and Coolant Temperature Sensors are at operating

temperature, the computer can operate in the closed loop mode. Closed loop mode

constantly corrects to obtain an air/fuel mixture at the ideal 14.7:1. But in stop and go

cycles, the O2 sensor may in fact cool down enough that the computer will need to

rely on a set of internal parameters and go into open loop mode again. In some

cases, this may also happen during extended periods of idling. Many newer vehicles

now use heated O2 (HO2S) sensors to prevent this condition.
In many vehicles, the computer controls other systems related to open and closed

loop modes, including idle speed, electronic spark control, exhaust gas recirculation,

and transmission torque converter clutches. In open loop mode, some of these

systems will be adjusted to speed the warming of the engine and get the computer

into closed loop mode as quickly as possible.

OBD II

In 1994, manufacturers began equipping vehicles with a new class of computer

technology which puts more processing power under your dash than ever before. It is

called On-Board Diagnostics, Second Generation, or OBD II. It is required on all

vehicles sold in the US beginning January 1, 1996 (though most domestic manufac-

turers introduced it earlier than required), and offers increased system monitoring

and diagnostic information. This new system stores a library of more than 650

general trouble codes and another approximately 400 manufacturer-specific codes,

all of which you can access with the OBD II System Tester. These codes cover Body

Systems (B-Codes), Chassis Systems (C-Codes), Communications Codes (U-

Codes), and Power Train Systems (P-Codes). Now, basic terms are standardized

and all generic codes will share a common format and terminology that the manufac-

turers and the Society of Automotive Engineers (SAE) designed. You will be glad to

know that as your vehicle gets smarter, it will be easier for you to keep track of what is

going on under the hood.