late upshift - microsoft...10. manifold to fitting seal 11. tubing to fitting o-ring 12. manifold to...
TRANSCRIPT
18 GEARS August 2006
In September of 1989 Mercedes introduced the Upshift Delay System and it was used through
1996. On occasion, Mercedes has used the term Shift Point Retard System for this system. For this article we will use the most common term: the Upshift Delay System. During these years, most but not all gasoline-powered mod-els with the six-bolt pan 722.3, 722.4, and 722.5 transmissions were equipped with it. Diesel-powered vehicles don’t use it because they don’t have catalytic converters.
The Upshift Delay System was used to delay the shifts when the engine and catalytic converter tempera-ture are cold. The purpose of the late upshift is to improve engine perfor-mance and help the catalytic converter reach “light-off temperature” quickly to lower emissions. A system that isn’t working correctly may have excessive emissions levels, experience incorrect shift timing, perform poorly, and suffer from a loss of engine and transmission
durability.M e r c e d e s
used two different ways to control the Upshift Delay System. The first method we’ll dis-cuss works closely with the governor system; we’ll refer to this system as the Governor Type Upshift Delay System. A second system that we’ll discuss in depth in a later article oper-ates based on engine vacuum levels.
System ComponentsThese are the components used
for the Governor Type Upshift Delay System. The electrical components are identified in wiring diagrams, parts books, and shop manuals by the Mercedes-assigned identification char-
acters; we’ve included those characters at the end of the component name (fig-ures 1, 2 and 3).
• Upshift Delay Solenoid, Y3/2• Upshift Delay Relay, K29• Solenoid Bracket/Manifold
In the typical system, the Constant Injection System Electronic Control Module (CIS-E) N3 controls the cold
Late Upshift (Sometimes) = Normal Mercedes by J. Weldon Barnett
Figure 1 Figure 2
Figure 3: Upshift Delay Relay
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Remember that Old-Time Service?Remember that Old-Time Service?
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20 GEARS August 2006
Figure 5: Solenoid Assembly Parts
1 2
1. Manifold Governor Pressure Test Plug
2. Test Plug Aluminum Sealing Washer
3. Manifold/Bracket4. Solenoid Coil 5. Small Solenoid O-ring6. Medium Solenoid
O-ring7. Large Solenoid O-ring8. Large Solenoid
Aluminum Washer9. Solenoid Needle and
Seat Assembly10. Manifold to Fitting Seal11. Tubing to Fitting O-ring12. Manifold to Case
Governor Circuit Fitting13. Manifold to Case
Aluminum Sealing Washer
14. Banjo Fitting Sealing Washer, Second Washer not shown
15. Exhaust Banjo Fitting to Case
Figure 5 Legend, Solenoid and Manifold/Bracket Parts
3 4 5 6 7 8 9
13
14
15
12
11
10
upshift timing on most vehicles. On some vehicles the Engine System Control Unit (ESCU) N16 does the job of the CIS-E. The control module mon-itors the Engine Coolant Temperature Sensor (CTS) B11/2, Vehicle Speed Sensor (VSS) B6, and the time elapsed since the engine started.
Multiple ProgrammingMercedes has at least two types of
computer programs for the Governor Type system. Both computer programs will only allow the Upshift Delay System to operate at light-to-medium throttle. At wide open throttle, the trans-mission will shift at the correct road speed for wide open throttle. Neither system will delay a shift if the engine coolant temperature is below 32ºF.
If the engine coolant temperature is between 59º and 85ºF the first type program will delay the 2-3 shift for up to 80 seconds or up to 31 MPH. If the engine coolant temperature is between 32º and 59ºF it will follow the same strategy except the delay will be shorter. When the engine coolant temperature is above 85ºF the control module doesn’t delay the shift.
In vehicles with a 2.3L engine built after February 1990 and use the second type system, the upshift delay only
operates when the engine coolant tem-perature is between 32º and 89ºF.
Basic System OperationFollow along on the typical wir-
ing diagram in figure 4. On startup, the Constant Injection System Electronic Control Module receives the Engine Coolant Temperature Sensor B11/2 sig-nal as being cold and sends 12 volts to the normally-open Upshift Delay Relay.
The voltage goes though the coil windings in the relay and then to ground, energizing the relay. The mag-netic field in the coil pulls the switch arm closed. The energized relay sup-plies current through the relay contacts to the Upshift Delay Solenoid and then to ground, completing the circuit.
The single wire Upshift Delay Solenoid assembly is almost the same as the kickdown solenoid at the back of the transmission (figure 5). The Upshift
Late Upshift (Sometimes) = Normal Mercedes
Figure 4: Upshift Delay Wiring Diagram
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22 GEARS August 2006
Delay Solenoid bolts into the Solenoid Bracket/Manifold, which bolts onto the left front side of the transmission. The Solenoid Bracket/Manifold has two metal tubes:
• One tube has a fitting that con-nects the governor pressure port on the case to the solenoid incoming passage.
• The second tube connects to the exhaust port of the solenoid to an exhaust port on the case leading back into the pan (figures 6, 7, 8, 9 and 10).
The Upshift Delay Solenoid is nor-mally closed. With the solenoid closed the transmission works normally. When the solenoid is energized, the needle
lifts off the seat, exhausting gover-nor flow back to the pan. With this large, controlled governor leak, governor pressure won’t increase enough to stroke the shift valves, so the transmission won’t upshift to the next gear. On a wide open throttle takeoff, the unit will shift at the wide open throttle shift points.
Diagnostic TipsHere are some helpful diagnostic
tips to help you get started in the right direction.
1. If the shifts are late or the transmis-sion won’t shift at all:• Disconnect the wire from the
solenoid and see if the trans-mission shifts.
Late Upshift (Sometimes) = Normal Mercedes
Figure 7: Governor Pressure Test LocationFigure 6: Backside of Manifold
Figure 8: 2.3L Configuration
Solenoid Exhaust to Case
Governor Pressure
to Solenoidneed the REAL FIGURE 7. This photo was labeled "as" "Figure 7" but is NOT Figure 7. Please check your files and send me the REAL FIGURE 7.
Thanks - Jeanette
Figure 10: 722.362 Configuration
Figure 9: 2.6L Configuration
When the solenoid is ener-gized, the needle lifts off the
seat, exhausting governor flow back to the pan.
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GEARS August 2006 23
• Check the small solenoid O-ring for being damaged, flat, undersized, or missing (figure 11).
• Check the solenoid needle (fig-ure 12); is it blocked open?
• Check the governor pressure.
2. If the shifts are never late:• Check engine coolant level.• Check the power to the sole-
noid when the engine first starts. Work quickly; you only have 80 seconds to check it before the system turns the power off normally.
• Check the solenoid needle; it may be stuck.
By far the most common (per-ceived) problem is that normal cold operation may be different than a new owner or technician might expect. This can lead them to believe there’s a problem when the system is operating normally. The second most common problem is the O-rings on the solenoid don’t get changed and the shifts are always late or the unit won’t shift at all. A less common problem occurs when there’s dirt holding the solenoid needle open.
Here are some handy part numbers you might need:
• Small O-ring: 001-997-3548 • Middle O-ring: 008-997-3048• Large O-ring: 008-997-3148• Large washer: 115-304-0160
In a future article, we’ll cover the second Mercedes upshift delay system: the Vacuum Type Upshift Delay System. We’ll cover similar information on the Vacuum Type system as we did on the Governor Type system. As you’ll see, these systems are both similar in basic operation, but the vacuum system has completely different components, very interesting shifting characteristics, and can experience mystery failures.
Figure 12: End View of Solenoid Needle, It Must Not LeakFigure 11: Inspect Small O-ring
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By far the most common (perceived) problem is
that normal cold opera-tion may be different than a new owner or
technician might expect.
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