Since the Mid 1980's, many GM cars have factory fitted Anti-theft systems. Let's start by looking at the different systems in use and the cars that you might find them in.
VATS - the first system that appeared on the 86 Corvette, uses a resistive pellet in the key attached to a pre-programmed module. It will disable the starter circuit and injector pulse during cranking.
PASSKey I & II - Same as VATS except module can "learn" key pellet on first power up after installation. PassKey II disables injector pulse after startup.
PASSKey III - Uses key and transponder module in column. PCM disables the injectors and the starter enable relay. Module or keys can be "learned" after replacement.
PASSLock - Disables the injectors approximately 1-2 seconds after startup. It has no effect on the start circuit. May be controlled by the IPC (Instrument Panel Control), BCM (Body Controller), EVO (Electronically Controlled Orifice steering assist) and other systems.
|
System |
Models |
|
VATS |
Chevy: Corvette 86-88 |
|
PASSKey I & II |
Buick: Century 97-01, Park Ave 91-96, Lesabre 92-99,Riviera/Reatta 90-01, Regal 94-99, Roadmaster 94-96 Cadillac: Eldorado 89-01, Seville 89-97, Fleetwood 92-96,Deville 90-99, Allante 89-93 Chevy: Camaro 89-01, Corvette 89-01,Caprice/Impala 94-96, Lumina, MonteCarlo 95-97 Olds: Cutlass Supreme 94-97, Aurora 95-00,Regency/88 91-99, Toronado 90-93 Pontiac: Firebird 89-01, GrandPrix 94-96, Bonneville 92-99 |
|
PASSKey III |
Buick: Lesabre 2000-on; Park Ave 97-on Cadillac: Seville 98-on, Deville 2000-on Olds: Aurora 01-on Pontiac: Bonneville 2000-on Minivans: Venture, Montana, Silhouette |
|
PASSLock |
Buick: Skylark 96-98 Chevy: Cavalier 95-on, Impala 2000-on, Malibu 97-on, Monte Carlo 2000-on Pontiac: Sunfire 95-on, GrandAm 96-on Olds: Achieva 96-on, Cutlass 97-on, Intrigue 98-on Trucks: 98-on |
|
This list is not definitive and may refer to optional equipment on certain vehicle lines. Refer to Owner's/Shop manual for exact information. |
|
The system that most people are liable to come across is the original VATS (Vehicle Anti-Theft System)-also know as PassKey so here is a breakdown of how this system works and the key components it contains.
First introduced in 1986 on the Corvette and subsequently added to the Camaro/Firebird in 1988, the VATS system has two functions: first, it has a starter interrupt feature; second it can disable the fuel injectors if the system does not provide the correct signal. The system is made up of four components:-
1) The Ignition Key: This is a special key with a resistor pellet in it. There are 15 different key blanks of this type, each with a different resistance.
2) The Ignition Lock Cylinder: This looks and functions exactly like a conventional lock cylinder, except for a pair of contacts that connect to the resistor pellet in the key and a pair of leads that connect to the vehicle wiring.
3) The VATS Decoder Module: This solid-state component checks to see that the correct key has been inserted, by measuring the resistance value of the circuit. If correct, the vehicle can be started.
4) The Starter Enable Relay: This relay is connected between the ignition switch and the starter solenoid. It allows battery power to the solenoid when the Decoder Module energizes it. Chances are, if the vehicle's starter does not turn, this is because the decoder is not sending the "OK to start" signal to the vehicles Electronic Control Module (ECM).
If a vehicle is experiencing a "No Crank" condition because the
Pass Key decoder module is not sending the "OK to start" signal to
the ECM, first, look for a flashing or illuminated "Security"
light. This is an indication that the system is disabling the
starter. Remember, even if you supply power to the starter
solenoid, the vehicle will not start, because the ECM will shut
down the fuel injectors until it gets the proper signal from the
Decoder Module. The most likely component to fail is the ignition
lock cylinder. Make sure that the ignition key is not damaged, or
missing its pellet. Second, measure the resistance across the ends
of the key pellet.
Next, locate either a 2 wire connector at the base of the steering
column, or a 48 wire connector under the dash. If you have a 2 pin
connector, which is usually orange (don't confuse the yellow air
bag connector for the lock cylinder connector), disconnect it. Now,
insert the ignition key and turn the key to the "Start" position
while measuring the resistance across the two wire connector
leading up the steering column. The resistance reading should match
the key resistance throughout the entire range of lock cylinder
rotation. Any change will cause a no start situation. If you have
the 48 wire connector , the test is performed in the same
manner . This connector has 5 rows of terminals marked "A" through
E". Locate the last two terminals in row "E". As before, if the
ohmmeter indicates a change in the resistance reading, the lock
cylinder is faulty.
Another method is by checking the voltage from the Decoder
Module to the lock cylinder. Normally the module output is
approximately 5 volts. The resistance of the key will drop this
voltage to a certain value. If you see a constant 5 volts while
back probing this circuit when the key is turned, or any large
change in the voltage reading, this indicates that the cylinder
needs to be replaced. Any of the other components in the Pass Key
system can fail, however, the lock cylinder is usually the cause of
most problems.
If the decoder cannot "see " the key, then the system will not
allow the vehicle to be started. It's very unusual for the decoder
module itself to become faulty - except perhaps if it has been
subjected to a "voltage spike" or other problem that has occurred
within the vehicle's wiring. However, it's not unknown for the key
to require replacement due to loss or damage. Provided an original
is available, there's a simple way to find a replacement by
measuring the resistance of the embedded pellet.
There are, in fact, only fifteen different replacement keys available. These cover a wide range of resistances and for each key there is a degree of tolerance. Any modern digital multi-meter should be quite capable of providing an accurate figure and therefore the correct replacement blank.
|
Key Code |
Low Range |
Nominal Value |
High Range |
| 1 | 386Ω | 402Ω | 438Ω |
| 2 | 502Ω | 523Ω | 564Ω |
| 3 | 654Ω | 681Ω | 728Ω |
| 4 | 852Ω | 887Ω | 942Ω |
| 5 | 1085Ω | 1130Ω | 1195Ω |
| 6 | 1411Ω | 1470Ω | 1549Ω |
| 7 | 1795Ω | 1870Ω | 1965Ω |
| 8 | 2275Ω | 2370Ω | 2495Ω |
| 9 | 2890Ω | 3010Ω | 3150Ω |
| 10 | 3590Ω | 3740Ω | 3910Ω |
| 11 | 4560Ω | 4750Ω | 4960Ω |
| 12 | 5798Ω | 6040Ω | 6302Ω |
| 13 | 7200Ω | 7500Ω | 7820Ω |
| 14 | 9149Ω | 9530Ω | 9931Ω |
| 15 | 11328Ω | 11800Ω | 12292Ω |
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Fax: (01234) 273064
Email: sales@usautomotive.co.uk