Special information for automotive technicians – Tracer TP-9360 PRO-Alert M-L AM06026-3 User Manual

This warranty is in place of all other warranties of quality. There are no other warranties

either oral, written, express, implied or statutory. IMPLIED WARRANTIES OF FITNESS

FOR PURPOSE AND MERCHANTABILITY ARE EXCLUDED. This warranty and your

remedies thereunder are solely as stated in this manual. In no event shall Spectronics

Corporation be liable for special, indirect, incidental or consequential damages, nor for

any damages arising out of delay in shipment or production.

Special Information for Automotive Technicians

The PRO-Alert™ Refrigerant Leak Detector is design certified by MET Laboratories, Inc.

to meet SAE J1627, "Rating Criteria for Electronic Refrigerant Leak Detectors" for R-12,

R-22 and R-134a. The following SAE Recommended Practice applies to this instrument

and to the use of generally available electronic leak detection methods to service motor

vehicle passenger compartment air conditioning systems.
1. The electronic leak detector shall be operated in accordance with these

operating instructions.

2. Leak test with the engine not in operation.

3. The A/C system should be charged with sufficient refrigerant to have a gauge

pressure of at least 50 PSI (340 kPa) when not in operation. At temperatures below

59°F (15°C) leaks may not be measurable, since this pressure may not be reached.

4. Take care not to contaminate the detector probe tip if the part being tested is

contaminated. If the part is particularly dirty, it should be wiped off with a dry shop

towel or blown off with shop air. No cleaners or solvents should be used, since

electronic detectors are sensitive to their ingredients.

5. Visually trace the entire refrigerant system and look for signs of air conditioning

lubricant leakage, damage and corrosion on all lines, hoses and components. Each

questionable area should be carefully checked with the detector probe as well as all

fittings, hose-to-line couplings, refrigerant controls, service ports with caps in place,

brazed or welded areas, and areas around attachment points and hold-downs on

lines and components.

6. Always follow the refrigerant system around in a continuous path so that no areas of

potential leaks are missed. If a leak is found, always continue to test the remainder

of the system.

7. At each area checked, the probe shall be moved around the location at a rate no

more than 1 to 2 inches/second (25 to 50 mm/second) and no more than 1/4 inch

(5 mm) from the surface completely around the position. Slower and closer

movement of the probe greatly improves the likelihood of finding a leak.

8. An apparent leak should be verified at least once by blowing shop air into the area of

the suspected leak, if necessary, and repeating the check of the area. In cases of

very large leaks, blowing out the area with shop air often helps locate the exact

position of the leak.

9. Leak testing of the evaporator core while in the air conditioning module should be

accomplished by turning the air conditioning blower on high for a period of

15 seconds minimum, shutting it off, then waiting for the refrigerant to accumulate in

the case for the time specified in step 10, then inserting the leak detector probe into

the blower resistor-block or condensate drain-hole if no water is present, or into the

closest opening in the HVAC case to the evaporator, such as the heater duct or a

vent duct. If the detector emits an alarm signal, a leak apparently has been found.

10. The accumulation time for evaporator testing is 13 minutes.

11. Following any service to the refrigerant system of the vehicle, and any other service

which disturbs the refrigerant system, a leak test of the repair and of the service

ports of the refrigerant system should be done.