1969 FORD MUSTANG manual transmission

01-01-01
01-01-01

1

I 9Y82A848000
|
Y89A848000
rMMUNTrNUMBW

I 53A
A IA I8H 34 4

^J MODEL YEAR CODE

2)
ASSEMBLY PLANT CODE

5)
BODY SERIAL CODE

T)
ENGINE CODE

T)
CONSECUTIVE UNIT
NO.

T)
BODY TYPE CODE
(7)
COLOR CODE

0 TRIM CODE

® DATE CODE

(JO) DISTRICT-SPEC. EQUIP. CODE

(lT) REAR AXLE CODE

(12) TRANSMISSION CODE

W1001-A

Fig.
1—Warranty
Plates—Passenger Cars

9Y83NI0000I

Fig. 2—Typical Vehicle Identification Number
(VIN) Tab

W
1002-Aprocarmanuals.com

01-01-02
Vehicle Identification
01-01-02

VEHICLE WARRANTY NUMBER

The vehicle warranty number is the first line of numbers and

letters appearing on the Warranty Plates (Fig. 1). The Warranty

Plate is riveted to the left front door lock face panel. The first

number indicates the model year. The letter following the model

year number indicates the manufacturing assembly plant. The next

two numbers designate the Body Serial Code followed by a letter

expressing the Engine Code. The group of six digits remaining on

the first line indicate the Consecutive Unit Number.

VEHICLE DATA

The vehicle data appears on the second or lower line on the

Warranty Plate. The first two numbers and a letter identify the

Body Style. A letter or a number appears next indicating the

Exterior Paint Color followed by a number-letter combination

designating the Interior Trim. To the right of this code appears the

Date Code indicating the date the car was manufactured. A two-

digit number next designates the district in which the car was

ordered and may appear in conjunction with a Domestic Special

Order or Foreign Special Order number when applicable. The final

two spaces indicate the Rear Axle Ratio (numbers for regular axles,

letters for locking-types) and the Transmission type (numbers for

manual,
letters for automatic).

OFFICIAL VEHICLE IDENTIFICATION NUMBER

The official Vehicle Identification Number (VIN) for title and

registration purposes is stamped on an aluminum tab that is riveted

to the instrument panel close to the windshield on the driver's side

of the car and is visible from outside (Fig. 2).

MODEL YEAR CODE

The number 9 designates 1969.

ASSEMBLY PLANT CODES
COUGAR

Code

Letter
Code

Letter

A

B

C

D

E

F

G

H

J

K
Atlanta
L

Oakville (Canada)
N

Ontario Truck
P

Dallas
R

.,
Mahwah
S

Dearborn
T

Chicago
U

Lorain
W

Los Angeles
X

Kansas City
Y

Z
Michigan Truck

Norfolk

Twin Cities

San Jose

.
(Pilot). ...Allen Park

Metuchen

Louisville

Wayne

St. Thomas

Wixom

St. Louis

BODY SERIAL AND STYLE CODES

The two-digit numeral which follows the assembly plant code

identifies the body series. This two-digit number is used in con-

junction with the Body Style Code, in the Vehicle Data, which

consists of a two-digit number with a letter suffix. The following

chart lists the Body Serial Codes, Body Style Codes and the model.

LINCOLN CONTINENTAL

Body Body

Serial Style

Code Code Body Type

82
53A
4-Door Sedan

80
65A
2-Door
Hardtop

CONTINENTAL MARK
III

Body Body

Serial Style

Code Code Body Type

89
65A
2-Door
Hardtop
Body

Serial

Code

91

92

93

94

91
Body

Style

Code

65A

76A

65B

76B

65C

® Bench Seat

MERCURY

Body

Serial

Code

44

46

48

45

40

41

42

54

56

58

63

66

68

65

63

66

68

60

61

72

72

74

74

76

76
Body

Style

Code

54A

65A

57A

76A

53M

65M

57M

54C

65B

57B

53F

65F

57 F

76F

53C

65C

57C

63G

63H

71B

71C

71F

71G

71E

71A

©Bench Seat
Body
Type

2-Door
Hardtop©

Convertible©

2-Door
Hardtop©

Convertible®

2-Door
Hardtop®
Model

Standard

XR-7 Luxury

Standard

©Split Bench ©Bucket Seats

Body Type

4-Door Sedan©

2-Door
Hardtop-Formal®

4-Door Hardtop®

Convertible®

CANADA ONLY

4-Door Hardtop Sedan®

2-Door
Hardtop-Formal®

4-Door Hardtop®

4-Door Sedan®

2-Door
Hardtop-Formal®

4-Door Hardtop®

4-Door Hardtop Sedan®©

2-Door
Hardtop-Formal®©

4-Door Hardtop®®

Convertible®®

4-Door Hardtop Sedan©

2-Door
Hardtop-Formal©

4-Door Hardtop©
Model

Monterey

Marquis

Monterey-Custom

Marquis

Brougham (Option)

2-Door
Hardtop (Tunnel Roof)®© Marauder

2-Door
Hardtop (Tunnel Roof)®®©

4-Door 2 Seat®

4-Door 3 Seat (Side Facing)®

4-Door
2
Seat®

4-Door 3 Seat (Side Facing)®

4-Door 2 Seat®©

4-Door 3 Seat (Side Facing)®©
Monterey Wagoi

Monterey-Custom Wagon

Marquis Colony Park

©Split Bench ©Bucket Seats

METEOR (CANADA)

Body

Serial

Code

20

21

23
Body

Style

Code

54A

54B

65B
Body Type

4-Door Sedan®

4-Door Sedan®

2-Door
Hardtop-Formal®
Model

Rideau

Rideau 500

30
54C
4-Door Sedan®

35
65C
2-Door
Hardtop-Formal®

35
65E
2-Door
Hardtop-Formal{5-33)®®

33
57C
4-Door Hardtop®

34
76C
Convertible®

34
76E
Convertible (S-33)®®
Montcalm

24
65F
2-Door
Hardtop-Formal®©

27
57F
4-Door Hardtop®®
LeMoyne

28
71B
Rideau 500-6 Passenger®

29
71C
Rideau 500-Dual Face Rear®

38
71E
Mo ntcalm-6 Passenger®

39
71A
Montcalm-Dual Face Rear®
Station Wagons.

©Bench Seat ©Splite Bench ©Bucket Seatsprocarmanuals.com

01-01-04

Vehicle Identification
01-01-04

BODY SERIAL AND STYLE CODES-(continued)

FAIRLANE

Body

Serial

Code

30

31

34

35

33

36

35

33

36

40

41

42

44

43

42

44

43

46

46

45

45

32

37

38

47

48

48

49

49
Body

Style

Code

65A

54A

54B

63B

65B

76B

63E

65E

76E

65C

54C

63F

65F

76F

63D

65D

76D

63B

63E

65A

65E

71D

71B

71E

66A

66B

66B

(Opt.)

66C

66D

©Bench Seat
Body Type

2-Door
Hardtop-formal®

4-Door
Sedan®

4-Door
Sedan®

2-Door
Hardtop—Fastback®

2-Door
Hardtop-formal®

Convertible®

2-Door
Hardtop—Fastback©

2-Door
Hardtop-Formal©

Convertible®

2-Door
Hardtop-Formal®

4-Door
Sedan®

r t

2-Door
Hardtop—FastbackCD

2-Door
Hardtop-Formal®

Convertible®

2-Door
Hardtop—Fastback®

2-Door
Hardtop-Formal®

Convertible®

2-Door
Hardtop-Fastback®

2-Door
Hardtop-Fastback®

2-Door
Hardtop-Formal®

2-Door
Hardtop-formal®

Fairlane®

Fairlane 500®

Fairlane Torino Squire®

Ranchero®

Ranchero 500®

Ranchero 500®

Ranchero®

Ranchero®
Model

Fairlane

Fairlane 500

Fairlane 500

Torino

Torino GT

Torino GT

Cobra

Station Wagons-4 Door

Ranchero

Ranchero

Ranchero GT

©Split Bench ©Bucket Seats

REAR AXLE RATIO CODES

Conventional
Limited-Slip

Ratio

1
J
2.50:1

2
K
2.75:1

3
L
2.79:1

4
M 2.801

5
N
2.83:1

6
0
3.00:1

7
P
3.10:1

8
Q
3.20:1

9
R
3.25:1

A
S
3.50:1

B
T
3.07:1

C
U
3.08:1

D
V
3.91:1

E
W
4.30:1

TRANSMISSION CODES

Code Type

1
3-Speed
Manual

5 4-Speed Manual-wide ratio (2.78 1st Gear)

6 4-Speed Manual-close ratio (2.32 1st Gear)

W Automatic (C4) (XP-3)

U Automatic (C6) (XPL)

Y Automatic (MX)

X Automatic (FMX)

Z Automatic (C6 Special) (XPL, Special)®

©For Police & trailer towing
-
Not available with bucket seats
ENGINE CODES

Code

U
6Cyl.

T
6Cyl.

2
6 Cyl.®

L 6 Cyl.

3
6 Cyl CD

V
6
Cyl."

5
.
6 Cyl CD

B .6
Cyl.

E
6
Cyl.

F
8
Cyl.

6 8 Cyl.®

D 8
Cyl.

H 8 Cyl.

M 8 Cyl.

Y 8
Cyl.

X 8 Cyl.©

S 8 Cyl.©

P 8 Cyl.®

8 Cyl.

8 Cyl.®

K 8
Cyl.

N
8
Cyl.

A 8
Cyl.

©Low Compression

©High Performance
Type

170
Cu.
In.
(IV)

200
Cu.
In.
(IV)

200
Cu.
In.
(IV)

250
Cu.
In.
(IV)

250
Cu.
In.
(IV)

240
Cu.
In.
(IV)

240
Cu.
In.
(IV)

240 Cu. In. (IV) Police

240 Cu. In. (IV) Taxi

302
Cu.
In.
(2V)

302
Cu.
In.
(2V)

302 Cu. In. (2V) Police & Taxi

351
Cu.
In.
(2V)

351
Cu.
In.
(4V)

390
Cu.
In.
(2V)

390Cu.ln.(2V)

390
Cu.
In.
(4V)

428 Cu. In. (4V) Police Interceptor

428
Cu.
In.
(4V)
CJ

428
Cu.
In.
(4V)
CJ

429
Cu.
In.
(2V)

429
Cu.
In.
(4V)

460
Cu.
In.
(4V)

©Premium Fuel ©Improved Performance

©Ram Air Induction

CONSECUTIVE UNIT NUMBER

Starting Serial Numbers—1969 Passenger Cars

100,001—Ford, Fairlane, Falcon, Mustang, Thunderbird

500,001 -Mercury, Montego,
Cougar,
Meteor

848,000—Lincoln Continental & Continental Mark
III

EXTERIOR PAINT COLOR CODES

Code
Reference

Number
Color

A

B

c

D

E

F

G

H

|

J

K

L
. .

M

N

p

Q

R

S.
.. .

T

u

v

W

X

Y

z

2.
..

3

4

6.
. .

7

8
..
1724-A
1

3059-A

3197-A

3303-A

3191-A

3065-A
. .

3203-A

..
,.2067-A

2041-A

3080-A

3204-A

3060-A

1619-A
..

921-A

3064-A

1624-A

3198-A
. .

3199-A

2008-A

1070-A

3201-A

3120-A

3061-A
. . .

3202-A

2044-A

3071-A
. .

1730-A

3230-A

.
3077-A

3193-A

3190-A

..M6J-49B..

....M6J-50B.
Black

Maroon

Dk. Ivy Green Met.

Pastel Gray

Lt. Aqua

Dk. Aqua Met. (Brt.)

Med.
Orchid Met.

Lt. Green

Med.
Lime Met.

Dk. Aqua Met.

Dk. Orchid Met.

Lt. Gray Met.

White

Platinum

Med.
Blue Met.

Med.
Blue Met.

Lt. Gold

Med.
Gold Met.

Red

Med.
Aqua Met.

Lt. Aurora Copper IVIet.

Yellow

Dk. Blue Met.

Burnt Orange Met.

Dk. Grey Met.

Lt. Ivy Yellow

Calypso Coral

Med.
Emerald Met.

Med.
Blue Met. (Brt)

Lt. Emerald Green Met.

Lt. Blue

Red Primer

Grey Primerprocarmanuals.com

02-01-02
Brakes

02*01-02

STEERING
WHEEL RIW

TOEBOARD
OR

DASH
METAL
CHECKING
POINTS

STEERING
COLUMN-

STEEL
MEASURING TAPE

VEHICLE

FORD,
MERCURY AND METEOR

FORD,
MERCURY AND METEOR

FORD,
MERCURY AND METEOR

FORD,
MERCURY AND METEOR

FAIRLANE,
MONTEGO AND FALCON

FAIRLANE,
MONTEGO AND FALCON

MUSTANG
AND COUGAR

MUSTANG
AND COUGAR

THUNDERBIRD

CONTINENTAL
MARK III

LINCOLN
CONTINENTAL
TYPE

NON-POWER
DRUM

POWER
DRUM & DISC

NON-POWER
DISC

POLICE
POWER DISC

NON-POWER
DRUM

POWER
DISC

NON-POWER
DRUM

POWER
DISC

POWER
DISC

POWER
DISC

POWER
DISC
PEDAL
FREE

HEIGHT-A

8.09-7.17

6.18-5.99

8.65-7.82

7.58-6.72

8.13-6.91

7.25-5.71

7.49-6.43

6.25-5.56
PEDAL
FREE

HEIGHT-B"

5.96-5.04

5.96-5.04

6.50-5.50
PEDAL

TRAVEL-C

3.10

3.27

2.18

3.27

2.90

2.35

2.58

1.75

3.00

3.00

2.25

NOTE:AgB
DIMENSION TO BE MEASURED TO SHEET METAL

C
DIMENSION TO BE MEASURED PARALLEL TO THE VERTICAL CENTERLINE OF THE

STEERING
COLUMN WITH A 50 POUND LOAD APPLIED TO THE CENTERLINE OF THE

BRAKE
PEDAL PAD. (CHECKS ON POWER BRAKE VEHICLES MADE WITH ENGINE RUNNING

H1630-A

FIG. 1 — Brake Pedal Height and Travel Measurements

Tool-WRE-l

HI525-A

FIG.
2—Brake Pedal Effort Gauge Installed
o'clock position on the steering wheel

rim.

3.
With the steel tape still hooked

to the brake pedal depress the brake

pedal by pressing downward on the

brake pedal effort gauge. Apply a 50

pound load to the center of the pedal

by observing the pressure gauge, and

measure the distance from the brake

pedal to the fixed reference point on

the steering wheel rim parallel to the

centerline of the steering column.

4.
The difference between the brake

pedal free height and the depressed

pedal measurement under a 50 pound

load should be within the specified

maximum pedal travel service specifi-

cation B in Fig. I.

5.
If the pedal travel is more than

the specified maximum shown in Fig.

1,
dimension C, make several sharp

reverse stops (equivalent to 50 pounds

pedal pressure) with a forward stop

before each. Move the vehicle in rev-

erse and forward for a distance of ap-

proximately ten feet; then, apply the

brakes sharply and hold the brake

pedal down until the vehicle is com-

pletely stopped. This will actuate the

brake self-adjusters. If these stops do

not bring the brake pedal travel within

specification, make several additional

forward and reverse stops as outlined

above.

6. If the second series of stops do

not bring the brake pedal travel within

specification, remove the brake drums

and check the brake adjusters to make

sure they are functioning. Check the

brake linings for wear or damage. Re-

pair or replace all worn or damaged

parts and non-functioning adjusters.

Adjust the brake lining outside diame-

ter to the approximate inside diameter

of the brake drum with Rotunda Tool

HRE-8650 (Fig. 12, Part 2-2).

7.
If all the brake adjusters, brake

drums and linings are functional and

the brake travel is not within specifi-

cations, check the pedal linkage for

missing or worn bushings, or loose at-

tachments. Bleed the brakes and cen-

tralize the differential valve.

POWER BRAKE

FUNCTIONAL TEST

1.
Check the hydraulic brake sys-

tem for leaks or insufficient fluid.

2.
With the transmission in neutral,

stop the engine and apply the parking

brake. Depress the brake pedal several

times to exhaust all vacuum in the

system.

3.
With the engine shut off and all

vacuum in the system exhausted, dep-

ress the pedal, and hold it in the ap-

plied position. Start the engine If theprocarmanuals.com

02-01-03
Brakes

02-01-03

vacuum system is operating, the pedal

will tend to fall away under foot pres-

sure and less pressure will be required

to hold the pedal in the applied posi-

tion. If no action is felt, the vacuum

booster system is not functioning.

If the brake pedal movement feels

spongy, bleed the hydraulic system to

remove air from the system. Refer to

Hydraulic System Bleeding, Part 1,

Section 2.

VACUUM TESTS—VACUUM

RELEASE PARKING BRAKES

Visually check the operation of the

brake linkage as the brake pedal is

depressed. Then, check the operation

of the brake linkage when the manual

release lever is activiated. These

checks should indicate whether the

manual parking brake control linkage

is operating properly or requires re-

pair or adjustment due to inability of

the parking brake to hold against

moderate vehicle movement. Perform

tests of the parking brake system and

controls after making certain the link-

age and manual controls operate

properly.

When testing a parking brake vacu-

um release system, a minimum of 10

inches of vacuum (Hg.) should be

available at all points where vacuum is

applied. This can be checked with a

Rotunda Fuel Pump Tester Gauge

(ARE345) and two Distributor Tester

hose adapters (Marked Q) connected

together with a coupling. This allows

the Fuel Pump Tester Gauge hose to
be adapted to any other vacuum hose

or rubber connector in the vacuum

systems.

Failure to maintain 10 inches of

vacuum (Hg.) during vacuum system

tests could be caused by a loose hose

connection, resulting in a vacuum

leak. When checking for vacuum be-

tween two points, trace the hose along

the entire routing to be sure it is not

crossed with another hose and con-

nected to the wrong connection.

All of the vacuum parking brake

control checks are to be performed

with the engine running at idle speed.

Leaks in the parking brake hoses or

a disconnected or improperly con-

nected hose can usually be found by

listening for a hissing sound along the

hose routings. Under no circumstances

should air pressure be applied to the

vacuum system as the actuator dia-

phragm in the parking brake vacuum

motor may be damaged.

1.
Start the engine and run it at

idle speed. With the transmission shift

control in neutral, depress the parking

brake pedal to apply the parking

brake. Move the transmission shift

control to D range and observe the

parking brake pedal to see that the

pedal moves upward and the parking

brake releases. If the parking brake

releases, the parking brake vacuum

control is working properly.

2.
If the parking brake does not re-

lease, test for vacuum at the steering

column neutral switch port in the

junction block, vacuum lines and the

parking brake release vacuum motor.

Use the Rotunda Vacuum and Fuel
Pump Tester 345. This can be accom-

plished by removing the hose from

each component and attaching it to

the vacuum gauge. Connect two dis-

tributor tester vacuum hose adapters

together with a coupling as a connec-

tor to attach the gauge. A minimum

of ten inches of vacuum is required to

actuate the parking brake vacuum

motor. Do not remove any of the vac-

uum hoses from the junction block

unless the junction block is being re-

placed, as the plastic nipples are thin

and very brittle and damage may re-

sult. If a minimum reading is not

present when checking each of the

aforementioned components, they

must be replaced.

ROAD TEST

A road test should be conducted

only when the operator is sure the

brakes will stop the vehicle.

If the road test reveals one or more

problem conditions, correct all mal-

functions of the vacuum system, brake

booster and hydraulic system prior to

removing brake drums, brake calipers,

brake shoes and linings or backing

plates.

ANTI-SKID CONTROL

SYSTEM TESTS

No adjustments or repairs are to be

performed on the skid control system.

Damaged or worn parts are to be re-

placed.

Refer to Ford Car and Truck Diag-

nosis Manual for Testing procedures.

COMMON ADJUSTMENTS AND REPAIRS

PARKING BRAKE LINKAGE

ADJUSTMENT

FORD, MERCURY, METEOR,

FAIRLANE, MONTEGO,

FALCON, MUSTANG

AND COUGAR

Check the parking brake cables

when the brakes are fully released. If1

the cables are loose, adjust them as

follows:

1.
Fully release the parking brake

pedal by pulling the release lever.

2.
Depress the parking brake pedal

until it is engaged in the first notch of

the control. On a vacuum release

brake, the first notch will be approxi-

mately two inches of pedal travel.

3.
Raise the vehicle. With the

transmission in neutral, turn the ad-

justing nut forward against the equal-

izer (Figs. 3 and 4) until there is 100
L.H. REAR WHEEL CABLE -2A809> 2A791 (2 REQUIRED)

EQUALIZER-TO-ACTUATOR CABLE-2A815

R.H. REAR WHEEL CABLE-2A635

ADJUSTING NUT-2A812

H 1537-C

FIG. 3—Parking Brake Adjustment—Ford, Mercury, Meteor,

Thunderbird and Continental Mark IIIprocarmanuals.com

02-02-07
Brake System

02-02-07

ANTI-SKID CONTROL SYSTEM

RELEASE PAWL CAM PIN

RELEASE PAWL CAM LEVER

RELEASE CABLE

H
1636-
A

FIG. 10—Parking Brake Control Assembly

With Manual Release—Typical

power unit with mounting bracket is

riveted to the control assembly. The

vacuum actuated piston within the

unit is connected by a rod to the

upper end of the release lever (Fig. 9).

The lower end of the release lever ex-

tends out for alternate manual release
in the event of vacuum power failure

or for optional manual release at any

time.

Hoses connect the power unit and

the engine manifold to a vacuum re-

lease valve in the transmission neutral

safety switch.
The anti-skid control system con-

sists of three major components (Fig.

39).
Mechanically driven electromag-

netic sensors at each rear wheel; an

electronic control module mounted

under the glove box; a vacuum pow-

ered actuator attached to a bracket on

the inside of the right front frame rail

under the toe board.

The sensors consist of steel rings

having teeth on their outer diameters,

pressed on each axle shaft just out-

board of the wheel bearing. The teeth

rotate past corresponding teeth on the

inside diameter of stationary steel

rings mounted in the bearing retain-

ers.
Also mounted in the retainers, are

ring-shaped permanent magnets and

coils of wire. Two wires from each

sensor connect the sensors to the con-

trol module.

The control module consists of solid

state electronic components sealed in

a container. It is connected to the sen-

sors and to a solenoid on the actuator.

The actuator is similar to a vacuum

brake booster and consists of three

parts.
A chamber divided by a vacuum

suspended diaphragm; a hydraulic cyl-

inder connected to the diaphragm; and

a solenoid connected electrically to the

control module.

IN-VEHICLE ADJUSTMENTS AND REPAIRS

After any brake service work, ob-

tain a firm brake pedal before moving

the vehicle. Riding the brake pedal

(common on left foot application)

should be avoided when driving the

vehicle.

BRAKE SHOE ADJUSTMENTS—

DRUM BRAKES

The hydraulic drum brakes are

self-adjusting and require a manual

adjustment only after the brake shoes

have been relined, replaced, or when

the length of the adjusting screw has

been changed while performing some

other service operation. The manual

adjustment is performed with the

drums removed, using the tool and the

procedure detailed below.

When adjusting the rear brake

shoes,
check the parking brake cables

for proper adjustment. Make sure that

the equalizer operates freely.
To adjust the brake shoes:

1.
Use Rotunda Tool HRE 8650,

(Fig. 11) to determine the inside diam-

eter of the drum braking surface.

2.
Reverse the tool as shown in Fig.

11 and adjust the brake shoe diameter

to fit the gauge. Hold the automatic

adjusting lever out of engagement

while rotating the adjusting screw, to

prevent burring the screw slots. Make

sure the adjusting screw rotates freely.

If necessary, lubricate the adjusting

screw threads with a thin, uniform

coating of MIC-100-A.

3.
Rotate Tool HRE 8650 around

the brake shoes to be sure of the set-

ting.

4.
Apply a small quantity of high

temperature grease to the points

where the shoes contact the backing

plate, being careful not to get the lu-

bricant on the linings.

5. Install the drums. Install Tinner-

man nuts and tighten securely.

6. Install the wheels on the drums
and tighten the nuts to specification.

7.
Complete the adjustment by

applying the brakes several times with

a minimum of 50 lbs pressure on the

pedal while backing the vehicle. After

each stop the vehicle must be moved

forward.

8. After the brake shoes have been

properly adjusted, check the operation

of the brakes by making several stops

while operating in a forward direction.

WHEEL CYLINDER REPAIR-

DRUM BRAKE

Wheel cylinders should not be di-

sassembled unless they are leaking or

unless new cups and boots are to be

installed. It is not necessary to remove

the brake cylinder from the backing

plate to disassemble, inspect, or hone

and overhaul the cylinder. Removal is

necessary only when the cylinder is

damaged or scored beyond repair.procarmanuals.com

02-02-20
Brake System

02-02-20

1.
Disconnect the stoplight switch

wires at the connector. Remove the

spring retainer. Slide the stop light

switch off the brake pedal pin just far

enough to clear the end of the pin,

then liftfthe switch straight upward

from the pin. Use care to avoid switch

damage during removal.

2.
Slide the master cylinder push

rod and the nylon washers and bush-

ings off the brake pedal pin.

3.
Remove the brake tube from the

primary and secondary outlet ports of

the master cylinder.

4.
Remove the cap screws and lock-

washers that secure the master cylin-

der to the dirSh panel and lift the cyl-

inder forward and upward from the

vehicle.

Installation

1.
Position the boot on the push

rod and secure the boot to the master

cylinder. Carefully insert the master

cylinder push rod and boot through

the dash panel opening and position

the master cylinder on the panel.

2.
Install the cap screws at the dash

panel and torque them to specifica-

tion.

3.
Coat the nylon bushings with

SAE 10W oil. Install the nylon wash-

er and bushing on the brake pedal pin.

4.
Position the stop light switch on

the brake pedal pin, install the nylon

bushing and washer and secure them

in position with the spring retainer.

5.
Connect the wires at the stop

light switch connector.

6. Connect the brake lines to the

master cylinder leaving the brake line

fittings loose.

7.
Fill the master cylinder with the

specified brake fluid to within 1/4

inch of the top of the dual reservoirs.

Use Ford Brake Fluid— Extra Heavy

Duty-Part Number C6AZ-19542-A

(ESA-M6C25-A) or equivalent for all

drum brake applications. The extra

heavy duty brake system fluid is col-

ored blue for identification. Do not

mix low temperature brake fluids with

the specified fluid for the power disc

brake system.

8. Bleed the dual-master cylinder

and the primary and secondary brake

systems. Centralize the pressure dif-

ferential valve. Refer to Hydraulic

System Bleeding and Centralizing of

the Differential Valve, Part 2-1, Sec-

tion 2 for proper procedure.

9. Operate the brakes several times,

then check for external hydraulic

leaks.
FAIRLANE, MONTEGO,

FALCON, MUSTANG AND

COUGAR

Removal

Refer to Figs. 27 and 28.

1.
Working from inside the vehicle

below the instrument panel, disconnect

the master cylinder push rod from the

brake pedal assembly. The push rod

cannot be removed from the master

cylinder.

2.
Disconnect the stoplight switch

wires at the connector. Remove the

hairpin retainer. Slide the stop light

switch off the brake pedal pin just far

enough to clear the end of the pin,

then lift the switch straight upward

from the pin. Use care to avoid switch

damage during removal.

3.
Slide the master cylinder push

rod and the nylon washers and bush-

ings off the brake pedal pin.

4.
Remove the brake tubes from

the primary and secondary outlet

ports of the master cylinder.

5.
Remove the lock nuts or cap

screw and lockwashers that secure the

master cylinder to the dash panel and

lift the cylinder forward and upward

from the car.
Installation

Refer to Figs. 27 and 28.

1.
Position the boot on tie push

rod and secure the boot to the master

cylinder. Carefully insert the master

cylinder push rod and boot through

the dash panel opening.

2.
On Fairlane, Falcon or Montego

models, position the gasket and mas-

ter cylinder on the mounting studs on

the dash panel. Install the lock nuts

on the studs at the dash panel and

torque them to specification.

3.
On Mustang or Cougar models,

position the gasket and master cylin-

der on the dash panel. Install the re-

taining screws and torque them to

specification. Coat the nylon bushings

with SAE 10W oil. Install the nylon

washer and bushing on the brake

pedal pin.

4.
Position the stop light switch on

the brake pedal pin, install the nylon

bushing and washer and secure them

in position with the spring retainer.

5.
Connect the wires at the stop

light switch connector.

6. Connect the brake lines to the

master cylinder and tighten to speci-

fied torque.

7.
Fill the master cylinder with the

specified brake fluid to within 1/4

MASTER CYLINDER

IDENTIFICATION
UPPER STUD

SHAFT (AUTOf/lATIC

TRANSMISSION)

CLIP

BRAKE PEDAL

BUSHING SUPPORT

TUBE-2B253

TUBE-2A040
CLUTCH

PEDA_

LOWER STUD
STOP LITE

SWITCH

/ 13480

MASTER CYLINDER

PUSH ROD
BRAKE PEDAL

H 1556-C

FIG. 27—Dual Master Cylinder Installation—Non Power Brake

Fairlane, Montego, and Falconprocarmanuals.com

02-02-21
Brake System

02-02-21

INSTALLATION

CLUTCH ASSIST

SPRING

MASTER CYLINDER

2140

FIG. 28 —Dual Master Cylinder Installation—

Non Power Brake—Mustang and Cougar

inch of the top of the dual reservoirs.

Use Ford Brake Fluid- Extra Heavy

Duty-Part Number C6AZ-19542-A

for all brake applications. The brake

fluid is colored blue for identification.

Do not mix low temperature brake

fluids with the specified fluid for the

brake system.

8. Bleed the dual-master cylinder

and the primary and secondary brake

systems. Centralize the pressure dif-

ferential valve. Refer to Hydraulic

System Bleeding and Centralizing of

the Differential Valve, Part 2-1, Sec-

tion 2 for the proper procedure.

9. Operate the brakes several times,

then check for external hydraulic

leaks.

DUAL MASTER CYLINDER-

POWER BRAKES

REMOVAL

1.
Remove the brake tubes from

the primary and secondary outlet

ports of the master cylinder (Figs. 29

thru 33).

2.
Remove the two nuts and two

lock washers attaching the master cyl-

inder to the brake booster assembly.

3.
Slide the master cylinder forward

and upward from the vehicle.
SHAFT

AUTOMATIC

TRANSMISSION

CLUTCH PEDAL

BUMPER STOP
H1638-A
1.
Before installing the mater cyl-

inder, check the distance t; m the

outer end of the booster ass;. ,ihi\

push rod to the master .>',nder

mounting surface. Turn the nu->h rod

adjusting screw in or out as required

to obtain the specified length. Refer to

Part 2-1, Section 2. Power Brake

Master Cylinder Push Rod Adjust-

ment for the proper procedure.

2.
Position the master cylinder as-

sembly over the booster push rod and

onto the two studs on the booster as-

sembly (Figs. 29 thru 37).

3.
Install the attaching nuts and

lock washers and torque them to spec-

ifications.

4.
Install the front and rear brake

tubes to the master cylinder outlet fit-

tings.

5.
Fill the master cylinder with the

specified brake fluid to within 1/4

inch of the top o\ the dual reservoirs.

Use Ford Brake Fluid Fxtra Heavy

Duty Part Number C6AZ-19542-A

(ESA-M6C25-A) for all brake appli-

cations. The extra htaw duty brake

fluid is colored blue for identification.

Do not mix low temperature brake

fluids with the specified fluids for the

disc brake svstem.

CLIP

W
'0 AIR CONDITIONING

BUSHING

SHAFT

BUSHING

BRAKE PEDAL

SPACER

H 1642-A

FIG. 29—Master Cylinder Installation-

Ford,
Mercury and Meteor
-Power Brake-procarmanuals.com