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Tony66_au 14th April 2012 08:40 PM

D-Jet Injection system.
I have swiped this from where I first found it years ago trouble shooting a 142 Volvo.

The Author is Phil Singher, Editor of and this article is basically what I used to de mystify D jet injection before having a go at solving Lili's woes.

Tony66_au 14th April 2012 08:42 PM

Re: D-Jet Injection system.
Based on the number of questions we get about Bosch D-Jetronic Fuel Injection, many owners (as well as many professional mechanics) find its operation and maintenance arcane and mystifying. In fact, it's really not all that complicated, and problems can usually be analyzed with no more than a pressure gauge, a multimeter and a little common sense.

D-Jet is inherently a high-performance system, and it's picky about everything else about your motor being right if it's to work correctly. A prime factor in its operation is the level of vacuum in the intake manifold, so it's sensitive to vacuum leaks, compression and valve adjustment deficiencies, or ignition trouble. There's no Lambda sensor to provide corrective feedback based on the composition of exhaust gases and no anti-knock function. It's strictly a fuel management system, and does nothing to control ignition at all.

Bear this in mind, and don't be overly hasty to jump on fuel injection as the cause when there's a problem.

System Overview:
D-Jet is a "multi-port," electronically-controlled system that permits greater precision in metering an optimum fuel / air mixture than do carburetors, resulting in generally increased power and fuel economy. In a sense, it's a lot like spreading the internal bits of a carburetor around the engine compartment. The air component of the mixture is drawn into the motor just the same way as in a carbureted motor: through a throttle body on the outboard end of the intake manifold. The throttle body contains a single large butterfly opened by pressing the gas pedal (which should really be called the "air pedal"). Rather than using the resulting airflow to suck gas into the mixture through metering jets in a carburetor, however, D-Jet injects an atomized spray of fuel into the airflow directly outboard of each intake valve. How much fuel is determined by a simple computer known as the Electronic Control Unit, or ECU, usually located above the passenger's feet in an 1800E or under the right seat in a 142E.

Fuel is supplied to the injectors at a constant, regulated pressure. Each injector contains a small solenoid which snaps the flow fully on or shuts it fully off. The ECU's job is to determine how much fuel is needed and then control how long the injectors are snapped on during each piston stroke (even at full throttle, the injectors are on only a small fraction of the time). The ECU will vary this period in accordance with the following inputs:

Throttle position and movement from the Throttle Switch, which is just outside the throttle body and is connected to the butterfly shaft.
Intake manifold pressure from the Pressure Sensor, which is the hand grenade-looking thing on the fender connected to the intake manifold by a rubber hose.
Coolant temperature from Temp Sensor #2, which is a small fitting screwed into the head on the right just below the thermostat housing.
Ambient air temperature from Temp Sensor #1, generally located in the air cleaner box.
An additional input is required so that the ECU will synchronize the fuel injectors with the piston strokes. It therefore receives signals from a set of dual Trigger Points in the base of the ignition distributor. Each of the two points controls two injectors (in our four-cylinder motors, anyway).
Two or three more components (depending on year model) are used to aid cold starting, acting much like an automatic choke would on a carburetor. These are not controlled by the ECU, nor do they provide signals to it. They are the Auxiliary Air Valve (the silver metal cannister below Temp Sensor #2), the Cold Start Injector (centrally located on the intake manifold), and, in later cars, its enabling element, the Thermo Time Switch.

Fuel Pressure:
An electric Fuel Pump and filter are located at the rear of the car, immediately outside the gas tank. The pump is powered through a relay, operates for a few seconds whenever the ignition is switched on, and continuously when the motor is cranking or running. It provides fuel at several times the required pressure to the Fuel Pressure Regulator. No (or inadequate) pressure to the regulator input may be caused by failure of the pump itself, the associated fuse, relay and wiring, or simply a plugged-up filter. Fuel additives like Methanol or octane boosters are reputed to be injurious to the pump.

The Fuel Pressure Regulator, on top of the fuel "rail" supplying the injectors, maintains the injector supply at a nominal 30 PSI (adjustable by turning the nut on top). It does this by returning "excess" fuel to the tank -- a partial obstruction in the return line will result in pressure to the injectors rising over the first several minutes of operation (one possible cause of good initial starting followed by increasing excessive richness). For modified, high-performance motors requiring more fuel, adjusting the regulator for higher fuel pressure is the principle way to get it.

Fuel pressure is readily measured by inserting a gauge between the fuel rail and the Cold Start Injector.

NOTE: Due to the pressures involved, all fuel hoses must be rated for fuel injection. Also, use only FI-type clamps -- regular hose clamps will cut into the hose material and cause potentially dangerous leakage in time.

Injectors and Trigger Points:
Just as in a carbureted motor, a little study of spark plug color and condition can tell a lot. If the plugs indicate fuel-related problems in pairs, the Trigger Points are suspect. These are easily removed from the distributor as a unit for inspection or replacement.

If only one plug indicates a fuel problem, the associated injector may be at fault. First, please see our article on D-Jet Injector Seals in the Archive.

If all the plugs show a problem, it's not likely that all four injectors are going bad at once. Carefully check the wiring, including the grounds grouped together at the rear of the intake manifold. Check for problems in the fuse box -- the ECU senses analog voltages; if there are voltage supply problems to begin with, generalized problems will be the result.

It is possible to check injectors for spray pattern and flow rate, but I won't encourage you to do it at home. If troubleshooting the rest of the system leaves you with buggy spraying as the only remaining possible failure, have the injectors checked by a professional.

Throttle Switch:
As our D-Jet cars approach thirty years of age, the Throttle Switch is a common source of trouble. Typical symptoms include hesitant acceleration and "bucking" at sustained speeds. Fortunately, it's very simple and can generally be repaired with careful cleaning of the internal contacts.

Under the cover is a circuit board with 22 segments, across which three wipers are swept as the throttle butterfly shaft moves. One segment and one wiper make contact and signal the ECU when the throttle is closed. Another segment and wiper make contact to signal wide open throttle. The middle wiper sweeps the remaining 20 segments as the throttle is opened. Each time it "climbs" a segment, it signals the ECU to fire all injectors one additional time. This is, essentially, what D-Jet uses in place of a carburetor's accelerator pump.

Check the adjustment of the switch on its shaft and the condition of its contacts by turning on the ignition (don't start the motor) and manually operating the throttle through its full range. You should be able to count exactly 20 clicks from the injectors as you slowly open the throttle.

Pressure Sensor:
Vacuum in the intake manifold (that is, pressure lower than that of the outside air) varies greatly (for any given engine RPM) with variations in throttle opening and with load. The Pressure Sensor compares relative air pressure inside and outside the manifold and provides an analogous voltage to the ECU. The lower the vacuum, the more the mixture is richened.

It's worth noting here that vacuum leaks, depending just where they are, can cause a D-Jet to run either lean or rich. This is not true for most other FI systems and not true for any carbureted system I know of, so even experienced mechanics are sometimes sorely baffled by this phenomenon.

The simplest mechanical check of a the Pressure Sensor is to unhook its connecting hose from the manifold and suck on it. No air should leak through the diaphragm in the sensor (of course, there are more graceful ways of applying vacuum, if you're both hesitant to do that and want to spend more money).

Temp Sensors #2 and #1:
Bosch numbered these two sensors in reverse order -- #2 does most of the work, while #1 is fine tuning. #2 causes the ECU to richen the mixture when the engine coolant is cold, progressively returning to normal as full operating temperature is approached. For this reason, operating a D-Jet car without a thermostat (or with the wrong one) has a large affect on both performance and economy.

Temp Sensor #1 causes the mixture to richen when the intake air is cold. A failure of this sensor or its wiring will affect performance and economy, but not major problems.

Cold Starting:
If you were starting a cold carbureted motor, you'd probably pump the gas pedal a few times while cranking, thereby making the accelerator pump squirt a little raw gas down the intake. This is completely useless if your Volvo has SU carbs (which don't have accelerator pumps), but I'll bet you do it anyway; I know I sometimes do. The D-Jet system automatically does this pumping for you.

This is the province of the Cold Start Injector (aka "the fifth injector" or Cold Start Valve). It receives power from the starter solenoid only when the motor is being cranked over. In earlier models, the power is routed through a third FI relay activated by the ECU. In actual practice, the Cold Start Injector simply fires for a few seconds whenever the motor is cranked, regardless of temperature.

In later cars, the third relay is absent and power is supplied directly from the solenoid. The circuit is completed by a ground routed through the Thermo Time Switch, which senses coolant temperature. If the coolant is hotter than 95 degrees F., the Thermo Time Switch opens and no ground is supplied. If you've ever flooded a warm motor by pumping the gas out of turn, this should make perfect sense to you.

If hard cold starting is the main trouble, check that the Cold Start Injector is receiving power while cranking. Check that the other pin on its connector is grounded (on later models, only when the coolant is cold). If that doesn't reveal the trouble, remove the injector, hold it tip-down in a glass jar and see if it sprays when a helper cranks the motor.

The fifth injector does have full regulated fuel pressure applied to it, warm or cold, and fuel leakage through it can cause rich running and poor fuel economy, although not usually enough to cause serious driveability problems. As long as you have the injector out and pointing into a jar, turn on the ignition and don't crank the motor. No fuel should drip.

A cold motor needs to idle slightly fast until the coolant and oil temperatures come up, requiring a little additional air and fuel. On a carbureted motor, this is usually accomplished by holding the throttle slightly open on a choke-operated cam. The D-Jet uses an Auxiliary Air Valve instead, which simply allows a small amount of air to bypass the throttle butterfly when cold, gradually reducing the amount as the coolant warms up. To the rest of the system, this is identical to holding the throttle slightly open; the ECU automatically supplies the needed matching fuel as dictated by pressure and temp senders.

There's nothing electrical about the Aux Air Valve on a Volvo D-Jet (unlike on air-cooled Porsches). Test it by unhooking the connecting hose from the intake manifold and drawing air through it. With a cold motor, air should flow through readily; when warm, it should be much harder (it's OK if you can get a little bit through).

Electrical Checks:
There are two choices here. If you suspect a particular component of electrical failure, you can verify that failure by disconnecting the wiring and measuring directly on the component. On the other hand (this is more effort), you can disconnect the ECU and measure through the entire harness from that end, thereby verifying both component and wiring all in one shot. Decaying wiring is a common D-Jet problem, so we recommend the second method.

Always begin by checking all connections (including grounds) and by verifying that there are no fuse problems. All resistance checks must be conducted with the ignition off.

Individually check ECU harness pins 3, 4, 5 and 6 to ground. Resistance should be less than 25 ohms, but not zero. NOTE: The ECU powers the injectors with a 3V signal lasting between 2 and 5 milliseconds. This signal cannot be measured with a meter; don't try.
Trigger Points:
ECU harness pin 12 to 21, then pin 12 to 22 = near 0 ohm continuity on one set, open on the other. Rotate engine 360 degrees and test again. Readings should be opposite.
Throttle Switch:
First check for 20 clicks as outlined above. If no clicks are heard, check wiring continuity between Throttle Switch connector and ECU harness pins 9, 14, 17 and 20 (one connector wire to each harness pin only, of course).
Pressure Sensor:
ECU harness pin 7 to 15 = 90 ohms.
ECU harness pin 8 to 10 = 350 ohms.
Temp Sensor #2:
ECU harness pin 23 to ground as follows...
Cold motor = roughly 2000 ohms.
Warm motor = well under 1000 ohms.
Temp Sensor #1:
ECU harness pin 1 to 13. At air temp of 85 degrees, F., about 200 ohms; resistance varies inversely with temperature.
If you're sure you're getting an abnormal reading, you've found the bad part (and/or wiring). If you get a normal reading, the wiring is definitely good and the component being checked is probably good. There are failures that won't show up by doing thse checks, particularly involving the Pressure Sensor -- but it's a lot less expensive to try doing them than just throwing new parts at the problem until it goes away.
In Conclusion:
Don't be intimidated by the D-Jet system. If problems arise, first rule out anything that would cause a similar problem in a carbureted car -- Electronic Fuel Injection is just a different (I would say better) way of getting your engine the air and fuel it needs to run, not a cure-all, and not the source of all evil, either.

Common sense will go a long way towards helping you troubleshoot EFI problems efficiently. If nothing fuel-related seems to be getting power, check fuses and relays (a manual with a wiring diagram specific to your model is more than helpful in this). If the car is tough to start but runs well when warm, look into the components that affect Cold Starting. Note that if a wire falls off a temp sensor, the ECU will go towards rich; high resistance equals cold temps, so an open circuit must mean you're in Siberia at the height of winter -- the ECU's trying to help you out.

Obviously, I can't cover every problem or symptom you might experience with your D-Jet car, but I hope I've given you a basic understanding of just what makes the thing squirt. If you understand this much, you know more than most pros to whom you might entrust your car (unless they're specialists in early Bosch EFI; the later systems work quite differently). Give troubleshooting it yourself a shot -- you'll get a lot of satisfaction from figuring out what's wrong, to say nothing of potentially saving quite a bit of money.

Good luck!

Tony66_au 14th April 2012 08:46 PM

Re: D-Jet Injection system.
Please note that this information is written for early 100 series Volvo's.

However the principles apply equally to Mercedes M110 and M117 as does the trouble shooting.

I hope this helps.


Tony66_au 14th April 2012 08:52 PM

Re: D-Jet Injection system.
For those of you who want more interesting D jet and K jet info their Archive can be found here and Volvo guys are not unlike us in many ways.

Styria 15th April 2012 04:14 AM

Re: D-Jet Injection system.
Tony, that's excellent information and I am glad that you have put it into the Technical Information section. D-Jet is a mystery to many, if not all of us, unless of course one owns a D-Jet car and is then forced into learning about how the system works and what to look for.

There is just one thing missing, and I don't know if you are able to fill the missing gap. Photographs ! Photographs of the various components, so that we can put a face to a name - you know what I mean. I haven't fully investigated the various links to the Volvo guys, so there may well be some photos in those links. In the meantime though - excellent work. Regards Styria

Tony66_au 15th April 2012 10:24 AM

Re: D-Jet Injection system.
Thanks Styria, Im going to be taking ID pics sometime this month as well as an under bonnet picture showing there they hide but I can only do a D jet V8.

Its actually a fairly simple system once you demystify it all, Im also looking for other cars that ran D jet as a possible parts source should they become impossible to get.

I always thought that Jaguar used D jet on their V12's but its actually a Lucas copy and I draw the line at using Lucas parts.

However there are many many other marques that did use it including VW, Porche and ofcourse early Volvo's.

I will add to this thread as I find more information so a Sticky thread would be nice? Perhaps for your K Jet thread as well.

abl567 15th April 2012 02:43 PM

Re: D-Jet Injection system.
Sticky request granted and complete:)

Styria 15th April 2012 06:12 PM

Re: D-Jet Injection system.

Originally Posted by abl567 (Post 35998)
Sticky request granted and complete:)

Anthony, good to see you come to the party. Regards Styria

Tony66_au 17th April 2012 10:14 AM

Re: D-Jet Injection system.
Bewdy! and Thanks Gents!

Tony66_au 17th April 2012 11:38 AM

Re: D-Jet Injection system.
Something interesting I found in the W116 manual was the production dates for D jet 450's and then K jet 450's.

The M117.982 and 983 D jet engines (In which the injection is referred to as EFI) was available up to Model year 1976.

The M117.985 and 986 K jet engines on which the injection system is refered to as CIS or Continuous Injection System.

So by this one can imply that vehicles manufactured to the end of 1975 were all Bosch D jetronic and then K jetronic from 1976 onwards.

This applies to all M116 (350 SE/SEL and 107 chassis variants) as well as M117 (450 SE/SEL and 107 variants.) although the M116's are all Obviously D jet.

Helmet 17th April 2012 09:37 PM

Re: D-Jet Injection system.

Originally Posted by Tony66_au (Post 36048)
Something interesting I found in the W116 manual was the production dates for D jet 450's and then K jet 450's.

The M117.982 and 983 D jet engines (In which the injection is referred to as EFI) was available up to Model year 1976.

The M117.985 and 986 K jet engines on which the injection system is refered to as CIS or Continuous Injection System.

So by this one can imply that vehicles manufactured to the end of 1975 were all Bosch D jetronic and then K jetronic from 1976 onwards.

This applies to all M116 (350 SE/SEL and 107 chassis variants) as well as M117 (450 SE/SEL and 107 variants.) although the M116's are all Obviously D jet.

Interesting info Tony, I have seen K jet M116's though. Even though they stopped importing them to Oz , they where still available in Europe .

Tony66_au 19th April 2012 08:23 AM

Re: D-Jet Injection system.
Cheers for that Helmet!

I nearly bought a 350SEL for a few hundred last week, Initially for parts but it actually drove quite nicely (And I cant bring myself to part out a perfectly good Car).

Sadly someone got in the blokes ear about the price so I walked away.

Id suspect it would be the same for the 107? Probably more likely too.

Styria 15th October 2014 06:25 PM

Re: D-Jet Injection system.
Someone, and something, prompted me to have a read of this thread submitted by Tony. I'll say it again - what cracking good information. Regards Styria

motec 6.9 15th October 2014 07:08 PM

Re: D-Jet Injection system.
And we lost his input and posting. Forums loss.:mad:

Styria 17th October 2014 04:08 PM

Re: D-Jet Injection system.
Geoff, yes and no. Tony removed himself, and was certainly never forced to. In fact, he is still listed as a member. There are some well laid down rules under which the forum operates, and it's simply a matter of respecting those. No more, no less. Regards Styria

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