4th Gear
WARNING: This page is about a different car, the 2016 Ford F-150. However, it is still accessible from the selected car via links, so may be relevant.
| Item | Description |
|---|---|
| 1 | Driven Components |
| 2 | Held Components |
| 3 | Torque Converter |
| 4 | Pump Assembly |
| 5 | Forward Clutch Cylinder and Hub Assembly |
| 6 | Forward Clutch Balance Piston |
| 7 | Forward Clutch Assembly (A) |
| 8 | Front Planetary Sun Gear (No. 1) |
| 9 | Front Planetary Carrier Assembly |
| 10 | Front Planetary Ring Gear Assembly (Input Shaft) |
| 11 | Overdrive Clutch (E) Assembly |
| 12 | Overdrive Clutch Shaft |
| 13 | No. 3 Sun Gear Hub and Shaft Assembly |
| 14 | Rear Planetary Sun Gear (No. 3) |
| 15 | Rear Planetary Carrier |
| 16 | Rear Planetary Ring Gear and Output Shaft Assembly |
| 17 | Transmission Case |
Mechanical Operation
Apply components:
- Forward clutch (A) applied
- Overdrive clutch (E) applied
Planetary Gearset Operation
Front planetary gearset driving components:
- Ring gear (input shaft)
Front planetary gearset driven components:
- Planetary carrier
Front planetary gearset held components:
- Sun gear (splined to pump assembly
Rear planetary gearset driving components:
- No. 3 sun gear
- Planetary carrier
Rear planetary gearset driven components:
- Ring gear (output shaft)
Rear planetary gearset held components:
- None
4th Gear Clutch Application Chart
| Gear | Forward A (1, 2, 3, 4) | Direct B (3, 5, R) | Inter-mediate C (2, 6) | Low/ Reverse D (1, R) | Overdrive E (4, 5, 6) | Low- OWC |
|---|---|---|---|---|---|---|
| 4th Gear D | ||||||
| Planetary Components | Front planetary carrier-to- No. 3 sun gear | Front carrier-to-No. 2 sun gear | No. 2 sun gear | Rear planetary carrier | Input shaft-to-rear planetary carrier | Rear planetary carrier |
- D = Drive Clutch
- O/R = Overrunning
4th Gear Power Flow
| Item | Description |
|---|---|
| 1 | Driven Components |
| 2 | Held Components |
| 3 | Overdrive Clutch (E) |
| 4 | Forward Clutch (A) |
Hydraulic Operation
Line pressure hydraulic circuits:
- The position of the main regulator valve controls line pressure. The position of the main regulator valve is dependent on the pressure applied to it by the LPC solenoid through the VFS5 circuit.
- The main regulator valve varies pressure in the PUMP circuit by controlling hydraulic flow from the SCHG circuit into the pump suction circuit.
- Line pressure is supplied to the:
- Manual valve.
- Lubrication control valve
- Converter release regulator valve.
- Bypass clutch control regulator valve.
- Solenoid pressure regulator valve.
- D1 latch and regulator valves.
- In drive, the manual valve directs line pressure to the No. 1 shuttle valve and clutch A, C and E regulator valves.
- The No. 1 shuttle ball directs line pressure to the clutch B regulator valve.
Torque converter circuits:
- When the TCC is released, the converter release regulator valve applies pressure to the torque converter through the CREL circuit to release the TCC.
- CREL pressure exits the torque converter through the CAPLY circuit to the bypass clutch control regulator valve.
- The bypass clutch control regulator valve directs the pressure from the CAPLY circuit back to the converter release regulator valve through the CAPLY EX circuit.
- The converter release regulator valve directs the pressure from the CAPLY EX circuit to the drain back valve through the DBACK circuit.
Cooler and lubrication hydraulic circuits:
- The lubrication control valve directs line pressure to the transmission fluid cooler or the thermal bypass valve through the COOLF circuit.
- When the transmission fluid exits the transmission fluid cooler or thermal bypass valve, it provides lubrication to the transmission through the LUBE circuit.
Solenoid hydraulic circuits:
- The solenoid pressure regulator valve supplies regulated line pressure to the shift, LPC and TCC solenoid through the SREG hydraulic circuit.
- The LPC applies varying pressure to the main regulator valve through the VFS5 hydraulic circuit. The LPC solenoid regulates line pressure by controlling the position of the main regulator valve.
- SSA supplies pressure to the clutch A regulator and latch valves to position the valves for forward clutch (A) application.
- SSD supplies pressure to the solenoid multiplex valve through the VFS4 circuit.
- SSE supplies pressure to the solenoid multiplex valve and the drive enable valve through the SS1 circuit to move the valves.
- The position of the solenoid multiplex valve and the drive enable valve allows pressure from the VFS4 circuit to be directed to the clutch E latch and regulator valves through the CLEC circuit to position the valves for overdrive clutch (E) application.
Clutch hydraulic circuits:
- Regulated line pressure from the clutch A regulator valve is supplied to the forward clutch (A) to apply the clutch.
- Regulated line pressure from the clutch E regulator valve is supplied to the overdrive clutch (E) to apply the clutch.
Electrical Operation
Solenoid operation:
4th Gear Solenoid Operation Chart
| Selector Lever Position | PCM Commanded Gear | TCC NL | |||||
|---|---|---|---|---|---|---|---|
| SSA NL (1, 2, 3, 4) | SSB NH (3, 5, R) | SSC NL (CB 2, 6) | SSD NH (CB L/R 4, 5, 6) | SSE NC | |||
| D | 4 | On | On | Off | Off | Off | On/Off |
CB = Clutch brake
NC = Normally closed
NH = Normally high
NL = Normally low