Description and Use

Fig. 2 SCAN DATA TABLE:

SCAN DATA TABLE (TYPICAL VALUES)


While using a SCAN tool to monitor serial data does not make use of diagnostic charts unnecessary, understanding what each position on the tester used measures and the function of the circuit involved can be useful in obtaining information that might otherwise prove time consuming or impossible to obtain using other test procedures.
Serial data access can be useful in obtaining information regarding intermittent malfunctions, as the SCAN tool can be installed and monitored while operating the vehicle under the conditions where the malfunction was reported to occur. If the malfunction seems to be related to specific functions that are monitored by the SCAN tool, the system can be checked in the applicable positions, under actual operating conditions. If the malfunction is not related to any specific area, the system can be monitored in all tester positions for a period of time or under a group of operating conditions. This allows the technician to observe the system and monitor changes in tester readings that may indicate a system malfunction.
Many diagnostic charts include provisions for the use of a SCAN type diagnostic tool to interpret serial data. The SCAN tool is capable of monitoring sensor inputs to the ECM and ECM commands to the various system operating elements, and provides the means to save time in diagnosis and prevent replacement of satisfactory components. Successful use of the SCAN tool for diagnosis requires an understanding of how the C-3 system functions, a thorough acquaintance with the tool manufacturer's recommendations and knowledge of the SCAN tool's limitations. Not all SCAN testers are compatible with every system. A SCAN tool that produces faulty readings should not be used, and problems should be reported to the tool manufacturer. Use of a faulty SCAN tool can result in improper diagnosis and unnecessary component replacement.
The SCAN tool can be used in 3 different modes: the normal or open mode; the 10K, special or ALDL mode; the factory test, back-up or 3.9K mode. Most SCAN tools are programmed so that the system will enter the special (ALDL, 10K) mode directly, and the `normal' or `factory test' modes must be selected manually, if available. In the special mode, all information incorporated into an engine/ECM combination is available. However, in the special mode engine operating characteristics are modified as follows: The closed loop timers are bypassed, EST spark is at full advance, the IAC (if equipped) controls idle speed at 1000 RPM, the park/neutral restrict functions are disabled, and on some engines the canister purge solenoid is activated. Although not all engine/ECM `families' are able to transmit information on the serial data line with the SCAN tool in the normal (open) mode, on engines that can be monitored in the open mode the SCAN tool allows data on certain operating parameters to be obtained without changing engine operating characteristics. Selecting the factory test or back-up mode causes the ECM to operate on the fuel back-up logic programming, designed to allow system operation in the event of an ECM failure. While selection of this mode verifies that the back up programming is functioning properly, parameters that can be checked with the tool in this mode are of little value in diagnosing system malfunctions.
In the generally used special or normal test modes the SCAN tool allows a quick check of sensors and switches which provide inputs to the ECM, but on models with a 160 baud ECM, the data only updates once every 1.25 seconds making the tool less effective than a voltmeter for locating intermittent conditions which may last for less than 1.25 seconds. However, the SCAN tool does allow the technician to manipulate wiring harnesses or underhood components while observing the SCAN readout. This aids in locating intermittent malfunctions while the engine is not running.
It is also important to note that while the SCAN tool may indicate that a component has been activated by the ECM, this indication only represents the ECM command to the specific circuit. The only way to verify that the command has been transmitted and carried out is to observe operation of the specific component activated by the ECM, or by noting changes in the system that the device controls. However, the SCAN tool allows the technician to compare operating parameters of a poorly operating engine with the parameters of an engine which is operating properly. Therefore, system malfunctions that may not ordinarily set a trouble code in the ECM memory, such as a shift in sensor values or excessive resistance in an operating element, can be uncovered by comparing operation of like systems.
The SCAN tool is capable of testing a variety of electronic engine control systems, and therefore not all tester positions will be applicable for each engine/ECM combination being tested. If a position is selected that is not applicable to the particular combination, this condition will be indicated on the tester. Refer to the manufacturer's instructions for information regarding the SCAN tester positions and data values and how they can aid diagnosis.

Fig. 003 Chart C-1D-1 MAP OUTPUT CHECK: