Leak Detection from the Loop A in the Right Wing

TASK 36-22-00-810-877-A
Leak Detection from the Loop A in the Right Wing

1. Possible Causes

CABLE-CONNECTING, R WING LOOP A [37HF]
wiring
SNSG ELEM-OVHT, R WING LOOP A [80HF]
SNSG ELEM-OVHT, R WING LOOP A [38HF]
SNSG ELEM-OVHT, R WING LOOP A [39HF]
CABLE-CONNECTING, R WING LOOP A [40HF]
CABLE-CONNECTING, R WING LOOP A [41HF]
SNSG ELEM-OVHT, R WING LOOP A [42HF]
SNSG ELEM-OVHT, R WING LOOP A [43HF]
SNSG ELEM-OVHT, R WING LOOP A [44HF]
SNSG ELEM-OVHT, R WING LOOP A [45HF]
INTERCONNECTING CABLE [92HF]
OVHT SENS ELEMENT [74HF]
ELEMENT-OVERHEAT SENSING [47HF]
CABLE ASSY [48HF]
wiring.
duct

2. Job Set-up Information
A. Fixtures, Tools, Test and Support Equipment

REFERENCE	QTY	DESIGNATION
9240SI	1	CONTROLLER-LOOP

B. Referenced Information

REFERENCE	DESIGNATION
AMM 36-11-00-740-802	BITE Test of the Engine Bleed Air System (EBAS) (System Test)
AMM 36-11-34-000-001	Removal of the BMC
AMM 36-11-34-400-001	Installation of the BMC
AMM 36-11-48-000-003	Removal of the Bleed Air Ducts
AMM 36-11-48-400-004	Installation of the Bleed Air Ducts
AMM 36-11-48-790-802	Leak Check on Bleed Air Ducting in Wing Area between Bleed Air Precooler Wing Anti Ice Valve and Wing/Fuselage Connection
AMM 36-22-00-790-802	Leak Check on all the Bleed Air Ducts and Packs Components
ASM 362201
AMM 36-22-16-000-001	Removal of the Overheat Sensing Elements
AMM 36-22-16-000-002	Removal of the Cables
AMM 36-22-16-000-003	Removal of the Cables
AMM 36-22-16-000-004	Removal of the Overheat Sensing Elements
AMM 36-22-16-000-005	Removal of the Overheat Sensing Elements
AMM 36-22-16-000-006	Removal of the Overheat Sensing Elements
AMM 36-22-16-000-007	Removal of the Cables
AMM 36-22-16-400-001	Installation of the Overheat Sensing Elements
AMM 36-22-16-400-002	Installation of the Cables
AMM 36-22-16-400-003	Installation of the Cables
AMM 36-22-16-400-004	Installation of the Overheat Sensing Elements
AMM 36-22-16-400-005	Installation of the Overheat Sensing Elements
AMM 36-22-16-400-007	Installation of the Overheat Sensing Elements
AMM 36-22-16-400-008	Installation of the Cables
AMM 36-22-18-000-001	Removal of the Fuselage Overheat Sensing-Elements (Loop A and B)
AMM 36-22-18-400-001	Installation of the Fuselage Overheat Sensing-Elements (Loop A and B)

3. Fault Confirmation
Subtask 36-22-00-710-124-A ** ON A/C NOT FOR ALL

A. Test

NOTE: The overheat detection threshold is between 117 and 131 degrees Celsius.
An overheat detection by one loop can occur in these conditions:

High Outside Air Temperature (OAT)
ECS supplied with hot bleed air.
In these conditions, the ambient air around the sensing elements can increase to the detection threshold but there is not an air leak.
If there is an air leak, there will be an AIR L(R) WING LEAK warning on the ECAM.
No other maintenance action is necessary if:
The overheat detection was by one loop only with high OAT and ECS supplied with hot bleed air.
The result of the BMC BITE test is TEST OK.

(1) Do the BITE test of the EBAS AMM 36-11-00-740-802.

4. Fault Isolation
Subtask 36-22-00-810-145-A ** ON A/C NOT FOR ALL

A. If the test gives the maintenance message:
R WING LOOP A

Remove BMC1 (1HA1) AMM 36-11-34-000-001.
On shelf 95VU, connect the 9240SI CONTROLLER-LOOP between connector 1HA1-AA/4F and the ground ASM 362201.
Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

(1) If the impedance is more than 10 kOhms:

Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector:
Install BMC1 (1HA1) AMM 36-11-34-400-001.
Refer to Para. 4.C.
Do a check of the correct installation of the sensing elements along the bleed duct.
Do a wiring check.

(2) If the impedance is less than 10 kOhms:

Do a visual inspection of the sensing elements and cables on the R wing loop A.

(a) If a sensing element or cable is damaged:

Replace the sensing element or cable AMM 36-22-16-000-001, AMM 36-22-16-400-001, AMM 36-22-16-000-002, AMM 36-22-16-400-002, AMM 36-22-16-000-003, AMM 36-22-16-400-003, AMM 36-22-16-000-004, AMM 36-22-16-400-004, AMM 36-22-16-000-005, AMM 36-22-16-400-005, AMM 36-22-16-000-006, AMM 36-22-16-400-007, AMM 36-22-16-000-007, AMM 36-22-16-400-008.
Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector
Install BMC1 (1HA1) AMM 36-11-34-400-001.
Refer to Para. 4.C.

The elements that follow can be found in the WING:
(b) If no sensing element is damaged:

Disconnect the connector between sensing element 42HF and cable 41HF.
Connect the 9240SI CONTROLLER-LOOP between BMC1 connector 1HA1-AA/4F and the ground.
Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

NOTE: You must use a dichotomy method to find the defective sensing element:

Disconnect a connector in the middle of the loop.
Measure the resistance of one of the halves.
If the measurement is correct, you must do a check of the other half.
If the measurement is not correct, do the same operation in the defective half again until you find the defective sensing element.

1 If the impedance is less than 10 kOhms:

Disconnect the connector between sensing elements 38HF and 39HF.
Do a check of the impedance read or the 9240SI CONTROLLER-LOOP.

a If the impedance is less than 10 kOhms:

Disconnect the connector between sensing elements 80HF and cable 37HF.
Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

* If the impedance is less than 10 kOhms:
- Replace the CABLE-CONNECTING, R WING LOOP A [37HF] AMM 36-22-16-000-002 and AMM 36-22-16-400-002
- Do a check of the impedance read on the 9240SI CONTROLLER-LOOP

** If the impedance is less than 10 kOhms:
- Do a check and repair the wiring between pin AA/4F of BMC1 (1HA1) and cable 37HF ASM 362201.
- Connect all the cables or connectors disconnected .
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

** If the impedance is more than 10 kOhms:
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

* If the impedance is more than 10 kOhms:
- Disconnect the connector between sensing elements 80HF and 38HF.
- Connect the connector between sensing element 80HF and cable 37HF.
- Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

** If the impedance is less than 131 kOhms:
- Replace the SNSG ELEM-OVHT, R WING LOOP A [80HF] AMM 36-22-16-000-001 and AMM 36-22-16-400-001.
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

** If the impedance is more than 131 kOhms:
- Replace the SNSG ELEM-OVHT, R WING LOOP A [38HF] AMM 36-22-16-000-006 and AMM 36-22-16-400-007.
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

b If the impedance is more than 10 kOhms:

Disconnect the connector between sensing elements 39HF and 40HF.
Connect the connector between sensing elements 38HF and 39HF.
Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

* If the impedance is less than 10 kOhms:
- Replace the SNSG ELEM-OVHT, R WING LOOP A [39HF] AMM 36-22-16-000-005 and AMM 36-22-16-400-005.
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

* If the impedance is more than 10 kOhms:
- Disconnect the connector between cables 40HF and 41HF.
- Connect the connector between cable 40HF and sensing element 39HF.
- Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

** If the impedance is less than 10 kOhms:
- Replace the CABLE-CONNECTING, R WING LOOP A [40HF] AMM 36-22-16-000-003 and AMM 36-22-16-400-003.
- Connect all the cables or connectors disconnected.
- Disconnet the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

** If the impedance is more than 10 kOhms:
- Replace the CABLE-CONNECTING, R WING LOOP A [41HF] AMM 36-22-16-000-007 and AMM 36-22-16-400-007.
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

2 If the impedance is more than 10 kOhms:

Disconnect the connector between sensing elements 44HF and 45HF.
Connect the connector between sensing element 42HF and cable 41HF.
Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

a If the impedance is less than 10 kOhms:

Disconnect the connector between sensing elements 42HF and 43HF.
Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

* If the impedance is less than 10 kOhms:
- Replace the SNSG ELEM-OVHT, R WING LOOP A [42HF] AMM 36-22-16-000-004 and AMM 36-22-16-400-004.
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

* If the impedance is more than 10 kOhms:
- Disconnect the connector between sensing elements 43HF and 44HF.
- Connect the connector between sensing elements 42HF and 43HF.
- Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

** If the impedance is less than 10 kOhms:
- Replace the SNSG ELEM-OVHT, R WING LOOP A [43HF] AMM 36-22-16-000-005 and AMM 36-22-16-400-005.
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

** If the impedance is more than 10 kOhms:
- Replace the SNSG ELEM-OVHT, R WING LOOP A [44HF] AMM 36-22-16-000-006 and AMM 36-22-16-400-007.
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

The elements that follow can be found in the FUSELAGE:
b If the impedance is more than 10 kOhms:

Disconnect the connector between sensing elements 74HF and 47HF.
Connect the connector between sensing elements 44HF (found in the wing) and 45HF (found in the wing).
Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

* If the impedance is less than 10 kOhms:
- Disconnect the connector between sensing elements 92HF (found in the wing) and 74HF (found in the fuselage).
- Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

** If the impedance is less than 10 kOhms:
- Connect the connector between sensing elements 92HF and 74HF.
- Disconnect the connector between sensing elements 92HF (found in the wing) and 45HF (found in the wing).
- Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

*** If the impedance is less than 10 kOhms:
- Replace the SNSG ELEM-OVHT, R WING LOOP A [45HF] (found in the wing) AMM 36-22-16-000-001 and AMM 36-22-16-400-001.
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

*** If the impedance is more than 10 kOhms:
- Replace the INTERCONNECTING CABLE [92HF] (found in the wing) AMM 36-22-16-000-001 and AMM 36-22-16-400-001.
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

** If the impedance is more than 10 kOhms:
- Replace the OVHT SENS ELEMENT [74HF] , AMM 36-22-18-000-001 and AMM 36-22-18-400-001.
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

* If the impedance is more than 10 kOhms:
- Connect the connector between sensing elements 74HF and 47HF.
- Disconnect the connector between sensing element 47HF and cable 48HF.
- Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

** If the impedance is less than 10 kOhms:
- Replace the ELEMENT-OVERHEAT SENSING [47HF] AMM 36-22-18-000-001 and AMM 36-22-18-400-001.
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

** If the impedance is more than 10 kOhms:
- Replace the CABLE ASSY [48HF] AMM 36-22-18-000-001 and AMM 36-22-18-400-001.
- Connect all the cables or connectors disconnected.
- Do a check of the impedance read on the 9240SI CONTROLLER-LOOP.

*** If the impedance is less than 10 kOhms:
- Do a check and repair the wiring. between pin AA/5F of BMC1 (1HA1) and the cable 48HF ASM 362201.
- Connect all the cables or connector disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

*** If the impedance is more than 10 kOhms:
- Connect all the cables or connectors disconnected.
- Disconnect the 9240SI CONTROLLER-LOOP from the BMC1 connector.
- Install BMC1 (1HA1) AMM 36-11-34-400-001.
- Refer to Para. 4.C.

Subtask 36-22-00-810-146-A ** ON A/C NOT FOR ALL

B. If the test gives the TEST OK message:

Do the leak check of the bleed air supply system AMM 36-11-48-790-802.
Do the leak check on the bleed air ducts AMM 36-22-00-790-802.
Replace the duct which causes the leak AMM 36-11-48-000-003 and AMM 36-11-48-400-004.

Subtask 36-22-00-710-125-A ** ON A/C NOT FOR ALL

C. Do the test given in Para. 3.

[Rev.8 from Aug 2018] 2026.04.04 04:34:10 UTC