Chelsea P.T.O. Model Numbering System

Transcription

Chelsea P.T.O. Model Numbering System
Chelsea P.T.O. Model
Numbering System
Objectives
• To acquaint users with the Chelsea model numbering system
• To make users aware of the different models and options that are available with Chelsea P.T.O.s
Features of the Numbering System
• Constant 13 digits for all models
• Each digit represents a particular option
• Consistent from model to model
Features of the Numbering System
Examples
442XQAHX-W3XD
The first 3 digits represent the model number.
• 442, 447, 489 & 880 Series are examples of mechanical shift model numbers
• 230/231, 270/271 and 277/278 Series are examples of Powershift models
• 941 Series is an example of a split shaft model
• 626/645 Series are examples of geared adapters
• CAT-D and 541 Series are examples of rear mounts
Features of the Numbering System
Examples – Mechanical Shift
442XQAHX-W3XD
• The 4th digit signifies the case style
• There are 5 possible case options for mechanically
shifted P.T.O.s
- X signifies the standard housing for the 442 and
447 models
- Z signifies the deep mount housing for the 442
and 447
- G signifies the standard housing w/ metric stud kit
for the 442, 447, and 489 models
- K stands for a standard housing less the stud kit
- L means deep mount housing less the stud kit
Features of the Numbering System
Examples – Mechanical Shift
442XQAHX-W3XD
• The 5th digit signifies the Speed Ratio of the P.T.O.
• The closer to the end of the alphabet the 5th digit is, the FASTER the P.T.O. output shaft will turn
• For specific speeds, consult the Chelsea HY25-3000/US Applications catalog
442XQAHX-W3XD
• The 6th and 7th digits are the input gear designators
• These digits are the key that will tell you if a particular input gear will mesh with the driver gear in a
specific transmission
NOTE: The General Information section in the HY25-3000/US catalog contains a breakdown of all the 2
digit gear designators. This breakdown includes info on Make(s) of transmission each designator is
typically found on.
Features of the Numbering System
Examples – Mechanical Shift
442XQAHX-W3XD
• The 8th digit calls out the lubrication option
- This digit can only be either an X (standard) or a P (pressure lube)
- Pressure lubrication must be specified whenever the P.T.O. aperture is higher than the oil level of
the transmission
• All Allison transmissions have the P.T.O. aperture above the oil level of the transmission
• Therefore the pressure lubrication option is required for any P.T.O. that is going to be installed on
an Allison
442XQAHX-W3XD
• The 9th digit is a dash and must be present
Features of the Numbering System
Examples – Mechanical Shift
442XQAHX-W3XD
• The 10th digit signifies the type of shifter that is mounted on this P.T.O.
• The most popular shifter is wire, signified by the letter W
• Other shifter types are:
- A = Air
- V = Air less installation
- W = Cable shift
- M = Constant mesh
- P = Electric over air (12 volt)
Features of the Numbering System
Examples – Mechanical Shift
-
Q = Electric over air (24 volt)
H = No shifter cover
X = Wire (less cable and knob)
S = P.T.O./Dump Pump combo valve
T = P.T.O. & Combo Valve less kick out & neutral return
Features of the Numbering System
Examples – Mechanical Shift
442XQAHX-W3XD
• The 11th digit signifies the assembly arrangement, or the relative positions of the P.T.O. input gear and
output shaft when the P.T.O. is mounted on the transmission and the P.T.O. is engaged
• Which assembly arrangement you need is determined by:
- Where the P.T.O. driver gear is located - towards the front or towards the rear of the transmission
- Which way the P.T.O. output shaft must point - to the front or rear of the vehicle
• The 3 assembly arrangement is the most commonly used
• When a different arrangement is called for, it’s possible to change any arrangement into any other in
just a few minutes by changing the positions of the internal components
Features of the Numbering System
Examples – Mechanical Shift
442XQAHX-W3XD
• A 3 assembly arrangement, when mounted on
the RIGHT side of a transmission, positions the
input gear to the FRONT of the aperture
centerline when the P.T.O. is engaged, and the
output shaft points toward the REAR of the
vehicle
• Muncie 1
Features of the Numbering System
Examples – Mechanical Shift
442XQAHX-W4XD
• A 4 assembly arrangement, when mounted on the
RIGHT side of a transmission, positions the input
gear to the REAR of the aperture centerline when
the P.T.O. is engaged, and the output shaft points
toward the REAR of the vehicle
• Muncie 2
Features of the Numbering System
Examples – Mechanical Shift
442XQAHX-W5XD
• A 5 assembly arrangement, when mounted on
the RIGHT side of a transmission, positions the
input gear to the REAR of the aperture centerline
when the P.T.O. is engaged, and the output shaft
points toward the FRONT of the vehicle
• Muncie 3
Features of the Numbering System
Examples – Mechanical Shift
442XQAHX-W6XD
• A 6 assembly arrangement, when mounted on
the RIGHT side of a transmission, positions the
input gear to the FRONT of the aperture
centerline when the P.T.O. is engaged, and the
output shaft points toward the FRONT of the
vehicle
• Muncie 4
Features of the Numbering System
Examples – Mechanical Shift
NOTE: Information on how to change assembly arrangements can be found in the Parts
Breakdown for each specific model. The parts breakdowns are available from Chelsea
distributors.
Features of the Numbering System
Examples – Mechanical Shift
442XQAHX-W3XD
• The 12th and 13th digits together signify the P.T.O.’s output option for mounting either a
driveshaft or a direct mount pump flange
• XD signifies an 1-1/4" keyed round shaft and is used for mounting a driveshaft to the P.T.O. It’s
the most common and popular output option
442XQAHX-W3XK
• The XK output is a popular direct mount pump flange. It fits an S.A.E. Class B pump (4" pilot with
either 2 or 4-Bolt mounting) and has a 7/8" 13 tooth splined shaft
NOTE: For other output options, consult the General Information catalog (HY25-0066/US).
Features of the Numbering System
Summary: Chelsea Model Number v. Muncie
442 X W AH X – P 5 XK
P.T.O. Series
Mounting Option
Gear Ratio
Input Gear
Lube
Shift Option
Assembly
Output Option
Special Features
TG 6S U68 18 – E 3 K H
Features of the Numbering System
Examples – Powershift 10 Bolts
277XBFJP-B5RA
The first 3 digits represent the model number.
• 267/269 Series are examples of Constant Mesh P.T.O.s
• 277/278 Series are examples of Powershift (402 Lbs. ft.)
• 859/867 Series are examples of Heavy Duty (575 Lbs. ft.)
• 890/892 Series are examples of Powershift with high torque (670 Lbs. ft.) and a problem solver
• 897/899 Series are examples of Constant Mesh with high torque (670 Lbs. ft.) and a problem solver
Features of the Numbering System
Examples – Powershift 10 Bolts
277XBFJP-B5RA
• The 4th digit signifies the case style
• There are 3 possible options for
Powershift shifted 277/278 P.T.O.s
- X signifies the standard housing for
the 277 and 278 models
- H signifies standard housing with
special installation kit. Hino 338
Chassis
- S signifies the standard housing
w/SuperTorque™ Gears
Features of the Numbering System
Examples – Powershift 10 Bolts
277XBFJP-B5RA
• The 5th digit signifies the Speed Ratio of the P.T.O.
• The closer to the end of the alphabet the 5th digit is, the FASTER the P.T.O. output shaft will turn
• For specific speeds, consult the Chelsea HY25-3000/US Applications catalog
277XBFJP-B5RA
• The 6th and 7th digits are the input gear designators
• These digits are the key that will tell you if a particular input gear will mesh with the driver gear in a
specific transmission
NOTE: The General Information section in the HY25-3000/US catalog contains a breakdown of all the 2
digit gear designators. This breakdown includes info on Make(s) of transmission each designator
is typically found on.
Features of the Numbering System
Examples – Powershift 10 Bolts
277XBFJP-B5RA
• The 8th digit calls out the lubrication option
- P = Pressure Lube
- R = Pressure Lube & Valve Body Rotated 120°
- W = Wet Spline Out Put Option
- V = Wet Spline & Valve Body Rotated 120°
- Pressure lubrication must be specified whenever the P.T.O. aperture is higher than the oil level of the
transmission
• All Allison transmissions have the P.T.O. aperture above the oil level of the transmission
• Therefore the pressure lubrication option is required for any P.T.O. that is going to be installed on an
Allison
Features of the Numbering System
Examples – Powershift 10 Bolts
277XBFJP-B5RA
• The 9th digit is a dash and must be present
Features of the Numbering System
Examples – Powershift 10 Bolts
277XBFJP-B5RA
• The 10th digit signifies the type of shifter that is mounted on this P.T.O.
• The most popular shifter is wire, signified by the letter W
• Other shifter types are:
- B = 12 Volt Hydraulic Valve
- D = 24 Volt Hydraulic Valve
- G = 12 Volt Remote Hydraulic Valve
- H = 24 Volt Remote Hydraulic Valve
- K = 12 Volt Electronic Overspeed Control (EOC)
- L = 24 Volt Electronic Overspeed Control (EOC)
- S = P.T.O./Dump Pump combo valve
- T = P.T.O. & Combo Valve Less Kick Out & Neutral Spring Return
Features of the Numbering System
Examples – Powershift 10 Bolts
277XBFJP-B5RA or 278XBFJP-B3RA
• The 11th digit signifies the assembly arrangement, or the relative positions of the P.T.O. input gear and
output shaft when the P.T.O. is mounted on the transmission and the P.T.O. is engaged
• Which assembly arrangement you need is determined by:
- Where the P.T.O. driver gear is located - towards the front or towards the rear of the transmission
277 Series
278 Series
Features of the Numbering System
Examples – Powershift 10 Bolts
277XBFJP-B5RA or 278XBFJP-B3RA
- Which way the P.T.O. output shaft must point - to the front or rear of the vehicle
• For 277 Series there is a slight offset between the Input gear centerline and the Output gear centerline
[.93" or 23.7 mm]
• For 278 Series there is no offset between the centerlines
277 Series
278 Series
Features of the Numbering System
Examples – Powershift 10 Bolts
277XBFJP-B3RA
• A 3 assembly arrangement, when mounted on
the RIGHT side of a transmission, positions the
input gear to the FRONT of the aperture
centerline and the output shaft points toward the
REAR of the vehicle. “BULGE UP”
• Muncie 1
Features of the Numbering System
Examples – Powershift 10 Bolts
277XBFJP-B5RA
• A 5 assembly arrangement, when mounted on
the LEFT side of a transmission, positions the
input gear to the FRONT of the aperture
centerline and the output shaft points toward the
REAR of the vehicle. “BULGE DOWN”
• Muncie 1
Features of the Numbering System
Examples – Powershift 10 Bolts
278XBFJP-B3RA
• A 3 assembly arrangement, when mounted on
the RIGHT side of a transmission, positions the
input gear to the FRONT of the aperture
centerline and the output shaft points toward the
REAR of the vehicle
• Muncie 3
Features of the Numbering System
Examples – Powershift 10 Bolts
278XBFJP-B3RA
• A 3 assembly arrangement, when mounted on
the LEFT side of a transmission, positions the
input gear to the FRONT of the aperture
centerline and the output shaft points toward the
REAR of the vehicle
• Muncie 3
Features of the Numbering System
Examples – Powershift 10 Bolts
277XBFJP-B5RA
• The 12th and 13th digits together signify the P.T.O.’s output option – for mounting either a
driveshaft or a direct mount pump flange
• RA signifies an S.A.E. “B” 2-Bolt 7/8" - 13 Tooth shaft and is used for mounting a pump to the
P.T.O. It’s one of the most common and popular output options
278XBFJP-B5RA
• The RA output is a popular direct mount pump flange. It fits an S.A.E. Class B pump (4" pilot with
either 2 or 4-Bolt mounting) and has a 7/8" 13 - Tooth splined shaft
NOTE: For other output options, consult the General Information catalog (HY25-0066/US).
Features of the Numbering System
Examples – 890 Family
• The 890 family of Power Take-Offs (P.T.O.) all
install in the same manner to the transmission.
The main difference will be the mounting plate
that is used to attach the P.T.O. output section to
the rear of the transmission case. Refer to the
chart below for P.T.O. Series and Mounting
Codes for information on your P.T.O.
• Several important things to remember
- Mounting Options (Brackets) are Unique to
Transmissions
- Output Flanges are Dependent on mounting
location of P.T.O. and transmission model
Features of the Numbering System
Examples – 890 Family
P.T.O.
SERIES
P.T.O.
ARRANEGMENT
TRANSMISSION MODEL
LOCATION
BRACKET & HOSE KIT
Mounting Bracket Chart
KIT
Bracket
Hose Pressure
Hose
Wet Spline
890/897L
5
MD (3000 Series)
LEFT
329645-1X
50-P-60
329130-5X
329130-11X
890/897R
5
MD (3000 Series)
RIGHT
329645-2X
50-P-61
329130-11X
329130-11X
890/897M
5
MD (3000 Series)
LEFT
329645-12X
50-P-128
329130-5X
329130-11X
890/897N
5
MD (3000 Series)
RIGHT
329645-13X
50-P-120
329130-13X
329130-11X
890/897H
5
HD (4000 Series)
LEFT
329645-3X
50-P-62
329130-4X
329130-11X
890/897U
5
HD (4000 Series)
TOP
329645-6X
50-P-73
329075-2X
329130-11X
890/897C
3
HD w/COOLER
LEFT
329645-7X
50-P-74
329130-4X
329130-11X
890/897J
3
HD w/RETARDER
LEFT
329645-10X
50-P-126
329130-4X
329130-11X
890/897K
5
HD w/RETARDER
TOP
329645-11X
50-P-127
329075-2X
329130-11X
890/897E
5
MD SIDE/TOP
LEFT
329645-4X
50-P-72
329130-5X
329130-11X
890/897T
5
MD SIDE/TOP
TOP
329645-5X
50-P-67
329075-2X
329130-11X
890/897F
5
MD SIDE/TOP
LEFT
329645-14X
50-P-129
329130-5X
329130-11X
890/897G
5
MD SIDE/TOP
TOP
329645-15X
50-P-75
329075-2X
329130-11X
892/899H
5
HD 4700/4800
LEFT
329645-8X
50-P-62
329130-4X
329075-2X
892/899U
5
HD 4700/4800
TOP
329645-9X
50-P-73
329075-2X
329075-2X
892/899C
3
HD 4700/4800
w/COOLER
LEFT
329645-15X
50-P-73
329130-4X
329075-2X
892/899J
3
HD 4700/4800 w/RETARDER
LEFT
329645-17X
50-P-126
329130-4X
329075-2X
892/899K
5
HD 4700/4800 w/RETARDER
TOP
329645-18X
50-P-127
329130-4X
329075-2X
890 Family Powershift P.T.O.
Applications Matrix
Application
Page
35
Transmission Models
Standard
ALL-13
ALL-13C
ALL-13R
STANDARD 3000 FAMILY
STANDARD 3000 FAMILY
STANDARD 3000 FAMILY
X
ALL-14
ALL-14C
ALL-14R
STANDARD 4000 FAMILY
STANDARD 4000 FAMILY
STANDARD 4000 FAMILY
X
ALL-16
ALL-16C
ALL-16R
3000 SERIES w/83 tooth P.T.O. GEAR
3000 SERIES w/83 tooth P.T.O. GEAR
3000 SERIES w/83 tooth P.T.O. GEAR
X
ALL-16EV
3000/3500 EVS w/83 tooth P.T.O. GEAR
X
ALL-18
3700 FAMILY
X
ALL-19
ALL-19C
ALL-19R
4700/4800 FAMILY
4700/4800 FAMILY
4700/4800 FAMILY
X
Integral
Cooler
Retarder
Mounting Locations
Left
Right
Top
X
890/897L "5" 890/897R "5"
N/A
890/897R
890/897M "5" 890/897N '5"
X
890/897H "5"
890/897C "3"
890/897J "3"
890/897U "5"
890/897U "5"
890/897K "5"
X
890/897E "5"
N/A
890/897F "5"
890/897T "5"
890/897T "5"
890/897G "5"
890/897E "5"
890/897T "5"
X
X
X
NO 890 APPLICATIONS
X
X
892/899H "5"
892/899C "3"
892/899J "3"
892/899U "5"
892/899U "5"
892/899K "5"
Features of the Numbering System
Examples – P.T.O.s with Pumps
• 247 & 248 Series – Ford Transmissions Ford Super Duties
• 252 Series – RAM & GM Trucks
Features of the Numbering System
Examples – P.T.O.s with Pumps
Chelsea CGP-P11 Series Pump Specifications for 4x4 or 4x2 Vehicles (3/4" - 11 Tooth Pump Spline)
Pressure PSI
Intermittent
Continuous
Max Speed RPM
Pump
Engine (2)
Max Pump
Flow GPM
Order Code
w/P.T.O. (3)
Chelsea Pump
Model
Displacement
in³/rev
GPM (1)
Pump (1)
HP
Torque (1)
Lbs.-ft.
16
CGP-P11A016-5GC
0.37
1.99
4.2
17.8
3990
3625
3500
2823
5.6
26
CGP-P11A026-5GC
0.61
3.27
6.9
29.3
3990
3625
3400
2742
9.0
32
CGP-P11A032-5GC
0.73
3.92
8.3
35.1
3990
3625
2500
2016
7.9
37
CGP-P11A037-5GC
0.85
4.56
9.6
40.9
3990
3625
2500
2016
9.2
42
CGP-P11A042-5GC
0.98
5.26
11.1
47.1
3990
3625
2100
1694
8.9
55
CGP-P11A055-5GC
1.28
6.87
13.7
57.9
3480
3410
1600
1290
8.9
61
CGP-P11A061-5GE
1.40
7.52
14.3
60.6
3410
3265
2750
2218
16.7
71
CGP-P11A071-5GE
1.65
8.86
14.2
60.3
2900
2755
2350
1895
16.8
82
CGP-P11A082-5GE
1.89
10.15
14.2
60.0
2465
2395
2100
1694
17.2
87
CGP-P11A087-5GE
2.01
10.79
14.2
60.0
2320
2250
2000
1613
17.4
Chelsea PGP-315 Series Pump Specifications for 4x2 Vehicles Only (3/4" - 11 Tooth Pump Spline)
Order Code
w/P.T.O. (3)
Chelsea Pump
Model
Displacement
in³/rev
GPM (1)
Pump (1)
HP
Torque (1)
Lbs.-ft.
Pressure PSI
Intermittent
Continuous
Max Speed RPM
Pump
Engine (2)
Max Pump
Flow GPM
08
CGP-P31B081-5AG
1.86
9.98
19.2
81.4
3300
3300
3000
2419
24.2
09
CGP-P31B094-5AG
2.17
11.65
19.7
83.5
2900
2900
3000
2419
28.2
11
CGP-P31B107-5AG
2.48
13.31
19.4
82.2
2500
2500
3000
2419
32.2
Chelsea P16 Series Pump Specifications for 4x2 Vehicles Only (7/8" - 13 Tooth Pump Spline)
Pump (1)
Torque (1)
HP
Lbs.-ft.
Intermittent
Continuous
Pump
Engine (2)
Flow GPM
15.73
27.5
116.6
3000
3000
2800
2258
35.5
18.85
24.2
102.5
2200
2200
2500
2016
38.0
20.95
24.4
103.5
2000
2000
2200
1774
37.2
Order Code
w/P.T.O. (3)
Chelsea Pump
Model
Displacement
in³/rev
GPM (1)
15
P16-150A-2D1
2.93
18
P16-180A-2D1
3.51
20
P16-200A-2D1
3.90
Pressure PSI
Max Speed RPM
Max Pump
(1) GPM & Pump Input HP @ 1000 Engine RPM & 1240 P.T.O. Output Shaft RPM & Continuous Pressure Rating
(2) Max Engine Speed = (Max Pump Speed) / (1.24) for P.T.O. Ratio Increase
(3) For Pump Codes 61, 71, 82 & 87- 45 degree fittings are required to connect hydraulic hoses for clearance. Order kit number
329667X
Features of the Numbering System
Examples – P.T.O.s with Pumps
252 Pumps
Pumps Offered in the PGP511 with 5/8" - 9T or 3/4" - 11T Shaft / S.A.E. “A” Flange
Option Order
Code
1116
1121
1126
1129
1137
1449
1462
P37
P42
P71
Chelsea Pump
Displacement Displacement Max Pressure Max Speed
Model
in^3/rev
Gal/rev
PSI
RPM
CGP-P11C016-1AC
0.37
0.002
3988
4000
CGP-P11C021-1AC
0.49
0.002
3988
4000
CGP-P11C026-1AC
0.61
0.003
3988
3600
CGP-P11C029-1AC
0.67
0.003
3988
3600
CGP-P11C037-1AC
0.85
0.004
3988
3300
CGP-P31C054-1AE
1.24
0.005
3500
3000
CGP-P31C061-1AE
1.40
0.006
3500
3000
CGP-P11C037-5AC
0.85
0.004
3988
3300
CGP-P11C042-5AC
0.98
0.004
3988
3000
CGP-P11C071-5AC
1.65
0.007
2900
2400
All 252 Series Pumps Must Be Rear Ported.
Shaft
Size
5/8" 9T
5/8" 9T
5/8" 9T
5/8" 9T
5/8" 9T
5/8" 9T
5/8" 9T
3/4" 11T
3/4" 11T
3/4" 11T
Features of the Numbering System
Examples – Split Shafts
941AHAF-AXXJC
• The first 3 digits represent the model number
941AHAF-AXXJC
• The 4th & 5th digits signify the Gear Pitch of the
gear box
- AH = Spur Gear (5-P-1004)
941AHAF-AXXJC
• The 6th position signifies Shift Option
- A = Air Shift
- L = Lever Shift
Features of the Numbering System
Examples – Split Shafts
941AHAF-AXXJC
• The 7th position signifies Shifter Position
- D = Shifter at 4 o’clock
- E = Shifter at 8 o’clock
- F = Shifter at 12 o’clock
941AHAF-AXXJC
• The 8th digit is a dash and must be present
Features of the Numbering System
Examples – Split Shafts
941AHAF-AXXJC
• The 9th digit signifies Assembly Arrangements
- A = Mounting Pads at 12 o’clock
- B = Mounting Pads at 6 o’clock
941AHAF-AXXJC
• The 10th & 11th positions signify P.T.O. Output
- XX = No P.T.O. Output
Features of the Numbering System
Examples – Split Shafts
941AHAF-AXXJC
• The 12th position signifies Input – Output
Options
- K = 1.5" w/1410 Companion Flanges
- L = 1.5" w/1500 Companion Flanges
- J = 1.5" No Input – Output Flanges
941AHAF-AXXJC
• The 13th position signifies Output Brake
- C = No Brake
Features of the Numbering System
Examples – Geared Adapters
626XAHX-3AH
• The first 3 digits represent the model number
626XAHX-3AH
• The 4th digit signifies the case (Mounting)
style
• There are 5 possible case options for
mechanically shifted P.T.O.s
- X signifies the standard housing
- Z signifies the deep mount housing
- G signifies the standard housing w/ metric
stud kit
- K stands for a standard housing less the
stud kit
Features of the Numbering System
Examples – Geared Adapters
626XAHX-3AH
• The 5th & 6th positions represent the Adapter
Gear Option
- AH = Spur Input Gear (5-P-1004)
626XAHX-3AH
• The 7th position signifies Lube Option
- X signifies the No Pressure Lube
- P signifies Pressure Lube
626XAHX-3AH
• The 8th digit is a dash and must be present
Features of the Numbering System
Examples – Geared Adapters
626XAHX-3AH
• The 9th digit signifies the assembly
arrangement, or the relative positions of the
Adapter input gear when the adapter is
mounted on the transmission
- A 3 assembly arrangement, when mounted
on the RIGHT side of a transmission,
positions the input gear to the FRONT of the
aperture centerline
- A 4 assembly arrangement, when mounted
on the LEFT side of a transmission, positions
the input gear to the FRONT of the aperture
centerline
Features of the Numbering System
Examples – Geared Adapters
626XAHX-3AH
• The 10th & 11th positions signify the P.T.O.
Input Gear needed to mount to the adapter
(shipped loose with adapter)
Features of the Numbering System
Examples – Rear Mounts
541-MAT-A-AK
• The first 3 digits represent the model number
541-MAT-A-AK
• The 4th position is a dash and must be present
541-MAT-A-AK
• The 5th digit signifies the Speed Ratio of the
P.T.O.
• The closer to the end of the alphabet the 5th digit
is, the FASTER the P.T.O. output shaft will turn
• For specific speeds, consult the Chelsea
HY25-3000/US Applications catalog
Input
Designator
Shaft
Part Number
Dimension
“A”
AT
3-P-809
6.457
AU
3-P-808
7.457
BD
3-P-838
10.478
BJ
3-P-808
7.457
LG
3-P-1001
10.721
LH
3-P-1000
13.841
Features of the Numbering System
Examples – Rear Mounts
541-MAT-A-AK
• The 6th & 7th position signify the Input Option
• These letters identify the correct shaft length for
the transmission
541-MAT-A-AK
• The 8th position is a dash and must be present
541-MAT-A-AK
• The 9th position signifies Shift Options
- A = Air Shift
- Y = Lever Shift
Input
Designator
Shaft
Part Number
Dimension
“A”
AT
3-P-809
6.457
AU
3-P-808
7.457
BD
3-P-838
10.478
BJ
3-P-808
7.457
LG
3-P-1001
10.721
LH
3-P-1000
13.841
Features of the Numbering System
Examples – Rear Mounts
541-MAT-A-AK
• The 10th position is a dash and must be present
541-MAT-A-AK
• The 11th & 12th positions signify Output Options
- XK = S.A.E. “B” 2 or 4 Bolt 7/8" - 13 Tooth Spline
- XV = Spicer 1410 Flange
Input
Designator
Shaft
Part Number
Dimension
“A”
AT
3-P-809
6.457
AU
3-P-808
7.457
BD
3-P-838
10.478
BJ
3-P-808
7.457
LG
3-P-1001
10.721
LH
3-P-1000
13.841
Features of the Numbering System
Summary
• Each digit or position in the numbering system stands for a particular model or option
• The complete 13-digit part number accurately describes:
- Model
- Case configuration
- Input Gear
- Shifter style
- Assembly Arrangement
- Output shaft configuration